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NewYorkClimateSmartCommunities
TownofHuntington‐ClimateActionPlanJune2015
TownofHuntington–ClimateActionPlan June2015
HUNTINGTON TOWN BOARD
Frank P. Petrone, Supervisor
Mark A. Cuthbertson, Councilman
Susan A. Berland, Councilwoman
Eugene Cook, Councilman
Tracey A. Edwards, Councilwoman
ACKNOWLEDGEMENT
The Town of Huntington Climate Smart Community Committee includes the following members:
• Terese M. Kinsley, PE, LEED AP BD+C, Chief Sustainability Officer
• Jacob Goldman, Chairman, TOH ACEERS
• Billii Roberti, Recording Secretary, TOH ACEERS
• Jay Best, member, TOH ACEERS
• Peter Hellermann, member, TOH ACEERS
• Pete Kelly, member, TOH ACEERS
• Ronald Lanner, member, TOH ACEERS
• Anthony Musso, member, TOH ACEERS
• Pete Smith, member, TOH ACEERS
• Gene Stern, member, TOH ACEERS
• Eve Tenzler, member, TOH ACEERS
• Marilyn Urso, member, TOH ACEERS
The Town’s Advisory Committee on Energy Efficiency, Renewables, and Sustainability (ACEERS) functions
as Huntington’s Climate Smart Communities (CSC) Task Force. The CSC Task Force also acknowledges the
contributions of Cameron Engineering & Associate, LLC, and the Sustainability Institute at Molloy College
for assisting with the development of this plan in the course of performing their work as CSC
Coordinators contracted for and sponsored by the New York State Energy Research and Development
Authority (NYSERDA). New York State Climate Smart Communities is a free and voluntary program of the
departments of Environmental Conservation, Health, State, and Transportation; the Energy Research
and Development Authority; and the Public Service Commission.
NOTICE
New York State Climate Smart Communities Program is sponsored by the New York State Energy
Research and Development Authority (NYSERDA). The opinions expressed in this report do not
necessarily reflect those of NYSERDA or the State of New York, and reference to any specific product,
service, process, or method does not constitute an implied or expressed recommendation or
endorsement of it. Further, NYSERDA, the State of New York, and their contractors make no warranties
or representations, expressed or implied, as to the fitness for particular purpose or merchantability of
any product, apparatus, or service, or the usefulness, completeness, or accuracy of any processes,
methods, or other information contained, described, disclosed, or referred to in this report. NYSERDA,
TownofHuntington–ClimateActionPlan June2015
the State of New York, and the contractors make no representation that the use of any product,
apparatus, process, method, or other information will not infringe privately owned rights and will
assume no liability for any loss, injury, or damage resulting from, or occurring in connection with, the
use of information contained, described, disclosed, or referred to in this report.
TownofHuntington–ClimateActionPlan June2015
TABLEOFCONTENTSEXECUTIVESUMMARY......................................................................................................................................1
Summary of Initiatives. .................................................................................................................... 1
1 INTRODUCTION...............................................................................................................................................2
1.1 Climate Action Plan Summary ......................................................................................................... 2
Existing Plans, Studies and Reports ................................................................................................. 2
Pledges/Memberships/Associations ................................................................................................ 2
Renewable Energy Task Force 2010 Draft Energy Master Plan ....................................................... 2
Climate Smart Community Task Force ............................................................................................. 3
Greenhouse Gas Inventory .............................................................................................................. 3
Greenhouse Gas Emissions Reductions Targets .............................................................................. 4
Climate Smart Community Certification .......................................................................................... 5
2 MUNICIPALFACILITIESANDOPERATIONS...........................................................................................7
2.1 Buildings .......................................................................................................................................... 7
2.1.1 Past Actions and Achievements ........................................................................................... 8
2.1.2 Projects and Policies Currently Under Consideration, Development or Implementation ... 8
2.1.3 Potential Future Actions and Initiatives ............................................................................... 9
2.2 Renewables ................................................................................................................................... 14
2.2.1 Past Actions and Achievements ......................................................................................... 14
2.2.2 Projects and Policies Currently Under Consideration, Development or Implementation . 15
2.2.3 Potential Future Actions and Initiatives ............................................................................. 15
2.3 Exterior Lighting ............................................................................................................................ 17
2.3.1 Past Actions and Achievements ......................................................................................... 17
2.3.2 Projects and Policies Currently Under Consideration, Development or Implementation . 17
2.3.3 Potential Future Actions and Initiatives ............................................................................. 17
2.4 Fleet ............................................................................................................................................... 18
2.4.1 Past Actions and Achievements ......................................................................................... 18
2.4.2 Projects and Policies Currently Under Consideration, Development or Implementation . 18
2.4.3 Potential Future Actions and Initiatives ............................................................................. 19
2.5 Solid Waste, Wastewater and Stormwater ................................................................................... 20
2.5.1 Past Actions and Achievements ......................................................................................... 20
2.5.2 Projects and Policies Currently Under Consideration, Development or Implementation . 20
2.5.3 Potential Future Actions and Initiatives ............................................................................. 22
TownofHuntington–ClimateActionPlan June2015
v
2.6 Operations ..................................................................................................................................... 23
2.6.1 Past Actions and Achievements ......................................................................................... 23
2.6.2 Projects and Policies Currently Under Consideration, Development or Implementation . 24
2.6.3 Potential Future Actions and Initiatives ............................................................................. 24
3 COMMUNITY‐WIDEPOLICIESANDINITIATIVES..............................................................................26
3.1 Residential Buildings ..................................................................................................................... 26
3.1.1 Laws, Codes and Regulations in Effect ............................................................................... 26
3.1.2 Potential Future Actions and Initiatives ............................................................................. 26
3.2 Commercial and Industrial Buildings ............................................................................................. 29
3.2.1 Laws, Codes and Regulations in Effect ............................................................................... 29
3.2.2 Potential Future Actions and Initiatives ............................................................................. 29
3.3 Community‐Wide Policies and Initiatives to Promote Renewable Energy ................................... 31
3.3.1 Laws, Codes and Regulations in Effect ............................................................................... 31
3.3.2 Potential Future Actions and Initiatives ............................................................................. 31
3.4 Transportation ............................................................................................................................... 32
3.4.1 Laws, Codes and Regulations in Effect ............................................................................... 32
3.4.2 Potential Future Actions and Initiatives ............................................................................. 32
3.5 Educational Initiatives ................................................................................................................... 36
3.5.1 Current Programs and Policies ........................................................................................... 36
3.5.2 Potential Future Actions and Initiatives ............................................................................. 36
3.6 Land Management ........................................................................................................................ 39
3.6.1 Laws, Codes and Regulations in Effect ............................................................................... 39
3.6.2 Potential Future Actions and Initiatives ............................................................................. 39
4 CLIMATECHANGE,PLANNINGANDADAPTATION..........................................................................41
4.1 Climate Change in New York ......................................................................................................... 41
4.1.1 Observed Effects of Climate Change .................................................................................. 41
4.1.2 Projected Climate Changes ................................................................................................. 41
4.1.3 Projected Effects of Climate Change .................................................................................. 41
4.1.4 Hazard Mitigation Grant Program ...................................................................................... 42
4.1.5 New York Rising Community Reconstruction Program ...................................................... 42
4.2 Community Self‐Assessment and Planning ................................................................................... 43
4.2.1 Town Initiatives .................................................................................................................. 43
4.2.2 Current Programs and Policies ........................................................................................... 43
TownofHuntington–ClimateActionPlan June2015
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4.2.3 Potential Future Actions and Initiatives ............................................................................. 44
4.3 Resilience Strategies ...................................................................................................................... 49
4.3.1 Community Planning and Capacity Building ....................................................................... 49
4.3.2 Health and Social Services .................................................................................................. 50
4.3.3 Housing ............................................................................................................................... 50
4.3.4 Infrastructure ..................................................................................................................... 50
4.3.5 Natural and Cultural Resources .......................................................................................... 50
APPENDICES......................................................................................................................................................51
APPENDICES
Appendix A: Possible and Anticipated CSC Certification Points
Appendix B: Pending Town of Huntington Projects
Appendix C: Town of Huntington Case Studies
TownofHuntington‐ClimateActionPlan June2015
1
EXECUTIVESUMMARYThis Climate Action Plan (CAP) for the Town of Huntington was produced as part of the New York State
Climate Smart Communities (CSC) program. The Town adopted the Climate Smart Communities pledge
by resolution on July 24 2012. The plan was developed by the Town’s Advisory Committee on Energy
Efficiency, Renewables, and Sustainability (ACEERS), which functions as the Town’s CSC Committee. As
subsequent steps are completed this section will be updated.
This CAP is organized into three sections: Municipal Facilities and Operations; Community‐wide Policies
and Initiatives; and Climate Change Adaptation and Resiliency. Section One provides information on
facilities and operations over which the Town has direct control and describe Past Actions and
Achievements; Projects and Policies Currently Under Consideration, Development or Implementation;
and Potential Future Actions and Initiatives. Section Two looks at a number of items that the Town can
affect by policy and describes Laws, Codes, and Regulations in Effect; Current Programs and Policies; and
Programs and Policies under Consideration or Planning for Potential Future Action. Section Three,
Climate Change Planning and Adaptation, provides an overview of the Town’s plans to adapt to the
effects of climate change including rising sea level, more intense rainfall, higher temperatures, and more
frequent droughts.
SummaryofInitiatives.
• Established Renewable Energy Task Force, Later Upgraded to an Advisory Committee on
Energy Efficiency, Renewables & Sustainability (ACEERS)
• Professional Chief Sustainability Officer Hired
• Long Range Energy Efficiency Plan
• Energy Analysis & Long Range Energy Efficiency Plan
• Energy Star® and LEED Upgrades for Town Hall
• Street Lighting Upgrades to High Efficiency Lighting Fixtures
• Sewage Treatment Plant Upgrades
• Town Fleet Upgrades to Hybrid Trucks, Buses and Compressed Natural Gas Sanitation
Vehicles
• Town Website Upgrades to Communicate Successes and Promote Green Initiatives to
Residents
• Residential Energy Efficiency Retrofit Program
• Solar Photovoltaic Electric Generating System Installation on Town Hall Rooftop
• Solar Electric Vehicle (EV) Charging Station Installation
TownofHuntington–ClimateActionPlan June2015
1 INTRODUCTION
1.1 ClimateActionPlanSummary
This Climate Action Plan is prepared in accordance with the commitment made by the Town of
Huntington when they adopted the Climate Smart Communities pledge. Huntington has been
aggressively pursuing a number of energy and sustainability initiatives for several years.
ExistingPlans,StudiesandReports
Adopted a Clean Energy Action Plan (2005).
Town of Huntington Master Plan.
Report on financial savings from clean energy efforts.
Renewable Energy Task Force 2010 Draft Energy Master Plan
Pledges/Memberships/Associations
Climate Smart Communities
USDOE Better Buildings Challenge
LI Clean Energy Leadership Task Force
LI Green Homes Consortium
NYSERDA’s Cleaner Greener Communities
Sustainability Institute at Molloy College
Vision LI
Suffolk County Planning Commission Energy & Environment Task Force
Greater Long Island Clean Cities Coalition
Cool Cities
RenewableEnergyTaskForce2010DraftEnergyMasterPlan
The Renewable Energy Task Force (RETF) was established to promote renewable energy and sustainable
development in the Town of Huntington and to recommend specific projects, actions, plans, and
legislation to the Supervisor and Town Board that will allow the Town to address sustainability issues
today and in the future. The charge of the RETF is to work with Town staff to develop policies and
projects regarding sustainable practices, renewable energy, and progressive legislation on climate
change, greenhouse gas emissions and developing technologies. The RETF consists of eleven members
of the Huntington community who have special expertise and/or interest in “Green” issues, meriting
their appointment by the Town Board.
The Huntington RETF developed the Draft Energy Master Plan in 2010 (the Plan). It was intended to be a
living document that could be updated and expanded as advances are made in the science and
technology of energy sustainability and through the suggestions, feedback of Town residents, and the
Town’s elected representatives. These recommendations are included in this document either verbatim
or as subsequently modified at subsequent meetings of the RETF.
TownofHuntington‐ClimateActionPlan June2015
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ClimateSmartCommunityTaskForce
In 2014, the Town Board changed by resolution the RETF name to reflect its expanded advisory role in
the Town. It is now Huntington’s Advisory Committee on Energy Efficiency, Renewables, and
Sustainability or ACEERS. With its expanded role, ACEERS will also function as the Town’s Climate Smart
Community Task Force.
GreenhouseGasInventory
The Rauch Foundation funded an effort by the New York Institute of Technology (NYIT) to draft a
comprehensive regional greenhouse gas (GHG) emissions inventory for Long Island’s (LI) Nassau and
Suffolk counties. NYIT released the results of the inventory as a report and interactive website in 2013.
The Long Island Carbon Footprint Project provides an inventory and analysis for 2010 and comparisons
to 2005 emissions. The website also hosts an interactive map that provides emissions data by sector,
source, region, and municipality. Inventory methodology was based in large part on the protocols
developed by the New York State (NYS) GHG Protocol Working Group that was administered by the New
York State Energy Research and Development Authority (NYSERDA).
The LI GHG inventory includes the following sources:
• Fuel use (oil and natural gas) and electricity
• Transportation
• Industrial processes
• Agriculture
• Waste (wastewater, stormwater and solid waste)
• Land use, land‐use change, and forestry
The inventory utilizes data from the following sectors:
• Residential ‐ building energy consumption
• Commercial and Industrial ‐ building energy consumption
• Municipal ‐ building energy consumption (included in commercial sector)
• Land Transportation ‐ vehicle and fuel types, vehicle miles traveled (VMT)
• Marine Transportation ‐ recreational only
• Solid Waste ‐ generation rates and disposal types
• Waste Hauling ‐ types and destinations
• Wastewater Treatment –wastewater treatment plants, and on‐site wastewater systems
• Land Use ‐ agriculture, forested areas, open space
• Streetlights ‐ type
Most data collected in the inventory are parsed by taxing jurisdiction (town, county, and city) and in
some cases by zip code. Other data were from the following sources:
• PSEG‐Long Island electric data by municipality (including villages and some
unincorporated areas)
• National Grid gas data by zip code – request made to sort by municipality
TownofHuntington‐ClimateActionPlan June2015
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• Fuel Oil – from the Oil Institute of Long Island
• Transportation data – by municipality, but includes vehicles traveling through
The NYIT project documented a significant reduction in emissions on Long Island from 2005‐2010. As a
region, Long Island reduced its overall emissions by 9.75 percent from 2005 to 2010. The following
breakdown of GHG emissions for the Town of Huntington was compiled by NYIT as part of their
comprehensive GHG emissions inventory for Long Island’s Nassau and Suffolk counties:
Town of Huntington GHG Emissions: 2005 ‐ 2010 (MT CO2e)
Source 2005 2010
Electricity 1,059,773 1,047,288
Natural Gas 410,096 417,766
Fuel Oil 586,189 428,756
Gasoline 928,376 707,914
Diesel 126,104 134,521
Total 3,110,538 2,736,245
The NYS GHG Protocol Working Group also developed a template for future emissions tracking by
municipalities. That template was populated with local data for each sector from the spreadsheets
developed by NYIT. The template contains the raw data, calculations, emissions factors, and
methodology used for the Long Island Carbon Footprint Project. The template will be used for tracking of
future Town of Huntington GHG emissions.
GreenhouseGasEmissionsReductionsTargets
This Climate Action Plan seeks to establish policies and identify strategies that will reduce greenhouse
gas (GHG) emissions to levels consistent with mitigating the worst effects of climate change. Scientific
consensus suggests that an 80 percent reduction in GHG emissions under 1990 levels by 2050 is
necessary to achieve that result. One goal of the 2014 Draft New York State Energy Plan is “to reduce
the intensity of its carbon emissions from the energy sector by 50% by 2030 (measured in CO2 emissions
per Gross State Product from 2010 baseline), putting New York on a pathway to achieve an 80%
reduction in total emissions by 2050.”1
Government Operations Goals
The Town of Huntington has direct control over a number of buildings and other facilities and a fleet of
vehicles. Investment in and management of these assets can make significant changes in energy use and
GHG emissions. A target of 20 percent reduction in energy use intensity by 2020 from 2005 baseline
government operations represents a meaningful but achievable goal for the Town. This target matches
1 2014 Draft New York State Energy Plan, http://viewer.epaperflip.com/Viewer.aspx?docid=3b57bb73‐4134‐4739‐ac2d‐a2b300fff076#?page=28, pp.28‐9.
TownofHuntington‐ClimateActionPlan June2015
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that proposed in New York State Executive Order 88, which calls for a 20 percent reduction in energy
use intensity in State owned and operated buildings by 2020.
Community‐wide Goals
As a Town, Huntington government has direct control of the policies that impact community emissions,
including zoning authority/control over land use. This level of authority allows the Town to pursue
emissions reductions for the built environment and transportation sector. These programs and policies
are highlighted in Section 3 of this plan.
There is reason to be somewhat optimistic concerning community‐wide reductions in GHG emissions.
The Long Island Carbon Footprint Project found that overall emissions in the Town of Huntington
dropped from 3,110,538 metric tons CO2e in 2005 to 2,736,245 metric tons CO2e in 2010, a reduction of
about 12 percent. Analysis by the Sustainability Institute at Molloy College indicates that already
planned changes to the PSEG‐Long Island electric generation fleet on Long Island, along with projected
reductions from energy efficiency programs and investments in renewable energy would reduce the
carbon emitted by electric generation by an amount approximately equal to 10 percent of Long Island’s
overall GHG emissions in 2010.
Vehicle related emissions make up about 31 percent of Long Island’s total GHG emissions. Emissions
from on‐road vehicles dropped from 12,960,118 MT CO2e in 2005 to 10,854,420 in 2010, a drop of
16.25 percent, even though vehicle miles traveled increased slightly during that period. This is believed
to be due primarily to consumers choosing more fuel‐efficient vehicles. It is anticipated that increases in
federal fuel efficiency standards for new vehicles (new Corporate Average Fuel Economy standard of
54.5 mpg by 2025) will have a significant effect on reducing GHG emissions in the Town of Huntington,
as these more efficient vehicles displace the existing fleet.
With this in mind, this Climate Action Plan sets a target of 20 percent reduction in community‐wide
vehicular emissions below the 2005 baseline by 2020.
ClimateSmartCommunityCertification
The Town of Huntington is participating in the recently‐launched Climate Smart Communities (CSC)
certification process to document the efforts being made by the Town. The CSC certification program
provides municipalities a unique platform to share and promote their climate action achievements. It is
designed to align with the ten CSC pledge elements, which were adopted by the Huntington Town Board
on July 12, 2012 (Resolution #2012‐348, Schedule A).
The certification program awards communities using a point‐based rating system based on four levels:
Certified (150 points), Bronze (250 points), Silver (350 points), and Gold (450 points). There are over 120
climate actions that generate points towards a community’s CSC certification. Out of these 120 actions,
13 have been designated as "priority" actions, which are critical activities that are required across all
levels of certification.
The chart below provides a summary of the possible certification points based on these ten pledge
elements and the points that are anticipated for the Town’s actions as described in this Climate Action
TownofHuntington‐ClimateActionPlan June2015
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Plan. The number of points that will ultimately be approved for the Town will depend on how well the
Town’s actions correspond to the certification program’s detailed requirements. It appears from the
chart that the Town could at a minimum qualify for Silver Certification. The full list of possible and
anticipated certification points is found in Appendix A.
Table 1: Summary of CSC Certification Points by Pledge Element
TownofHuntington‐ClimateActionPlan June2015
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2 MUNICIPALFACILITIESANDOPERATIONS
2.1 Buildings
Buildings are one of the largest consumers of natural resources. Buildings consume 72% of the electricity
load in the U.S. and account for 39% of all CO2 emissions in the U.S. (more than any other sector:
buildings, transportation and industrial). Most of the emissions come from the combustion of fossil fuels
to provide on‐site heating and for electricity generation for cooling, lighting, and running appliances and
electrical equipment. By transforming the built environment to be more energy‐efficient and climate
friendly, the building sector can play a major role in reducing the threat of climate change.2
Reducing energy consumption through energy efficiency improvements and conservation measures in
existing buildings is one of the most cost effective ways to reduce greenhouse gas emissions. At the
same time, this work will increase economic activity by creating local jobs and reducing municipal
energy costs for taxpayers.
The 2010 Draft Energy Master Plan (the Plan) proposed that the Town reduce the carbon footprint and
energy use in its facilities by 20% and 50% respectively. Specific implementation actions are discussed in
the following sections.
The Town of Huntington has 360 PSEG‐Long Island accounts. It would like to be able to manage all
accounts with Utility Management services and New York Independent System Operator (NYISO)
Demand Response Program to promote the following benefits to the Town:
• Better organize utility billing data
• Track Expenditures
• Better manage cash flow
• Insure better scope of energy efficiency improvements
• Document and verify resulting Energy Savings
• Provide the hardware (i.e. smart meters) for the Demand Response Program and
Interval Metering at the largest Town facilities which consists of 80% of the Town
building’s energy consumption.
The Town has benchmarked approximately 120 Town properties on EPA’s Portfolio Manager as part of
the USDOE’s Better Buildings Challenge. The Town has also used the USDOE’s Energy Efficiency and
Conservation Block Grant to upgrade Town Hall. In addition, the Town’s Wastewater Treatment Plant
has had energy efficiency retrofits and upgrades that are ongoing.
The Town of Huntington has consistently been an early adopter of many of these energy efficient
technologies, which has resulted in significant returns in terms of energy and cost savings.
2 USGBC, Buildings and Climate Change, PDF, http://www.usgbc.org/redirect.php?DocumentID=5033
TownofHuntington‐ClimateActionPlan June2015
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2.1.1 PastActionsandAchievements
Town Hall
o Conducted LEED Feasibility Study and Analysis.
o Implementation of energy conservation measures.
Upgraded HVAC and lighting.
Installed Building Management System and Variable Frequency Drives (VFDs) on
all HVAC Air Handlers.
o Obtained EPA’s Energy Star Label Rating in 2010.
o Completed installation of a 28kW Solar Photovoltaic electric generating system in
March, 2011
Town Wastewater Treatment Plant
o Upgraded to energy efficient lighting.
o Retrofitted with an HVAC system upgrade.
Town’s Dix Hills Park Ice Rink lighting upgrade.
Began a Long Range Energy Efficiency Plan, tracking energy use in all of its facilities using the
USEPA Portfolio Manager bench‐marking tool. The ten (10) facility energy auditing of its major
facilities following Town Hall and the wastewater treatment plant is the start of a Town‐wide
project to audit all Town facilities and buildings. Energy assessments, benchmarking and
recommendations have been done at the following Town facilities:
o Boxer Court Maintenance Facility
o Cavanagh Maintenance Facility
o Crab Meadow Golf Course
o Dix Hills Park
o East Northport Garage
o Elwood Administration Highway Department
o Flanagan Senior Center
o Hart Bus
o LIRR North Parking Garage
o Oakwood Highway Facility
2.1.2 ProjectsandPoliciesCurrentlyUnderConsideration,DevelopmentorImplementation
Pursuing lighting and HVAC upgrades in Town facilities
Pursuing use of geothermal technology at Dix Hills Ice Rink
Pursuing LEED Certification for new business incubator
Pursuing online building portfolio management
Pursuing Huntington Armory renovation project:
o Continue with budgeting for an energy efficient renovation including; a geothermal
HVAC system, Solar PV and a food green roof, to convert the former New York State
Armory into the James D. Conte Community Center located at 100 East 5th Street,
TownofHuntington‐ClimateActionPlan June2015
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Huntington Station which is classified as a New York State Brownfields Opportunity
Study Area, Environmental Justice Area, and a Low moderate Income Census Tract area
Continue Long Range Energy Efficiency Plan to audit all Town facilities and buildings
2.1.3 PotentialFutureActionsandInitiatives
The Draft Energy Master Plan proposed that the Town reduce the carbon footprint and energy use in
facilities. As part of the Towns potential future actions and initiatives four implementation actions were
recommended.
Establish a baseline on Town of Huntington facilities, Utilize baseline analysis to target improvements on Town of Huntington facilities, Adjust the Town’s energy codes to reflect the importance of sustainable design, and Communicate successes
Establish Baseline
The first implementation action was the establishment of an energy utilization baseline for Town‐owned
facilities. The Plan recommended starting with Town Hall, followed by major Town facilities and finally
all Town facilities. It was recommended that the baseline include an inventory of all energy utilizing
equipment, operating hours of such equipment, estimate of energy used by identified equipment as well
as carbon footprint and then correlated to energy bills.
Target Improvements
The second implementation action was to utilize baseline analysis to target improvements for Town
facilities. Once a facility has been audited and a baseline created, conservation and sustainability
measures should be enacted that target reductions in carbon emissions and energy use. The Plan sought
to establish goals of 20 percent reductions in carbon emissions and 50 percent reductions in energy use.
Budgeting for conservation measures was recommended to be part of the Town’s annual budget
process.
Adjust the Town’s Energy Codes to Reflect the Importance of Sustainable Design
The third implementation action was to incorporate additional energy requirements into the Town’s
Energy Codes. It was recommended to add the requirement for new commercial buildings and major
renovations to commercial buildings undertaken in the Town of Huntington to require LEED certification
through the USGBC. This requirement was expected to be required of Town owned and operated
facilities as well.
It was also recommended that the codes require a minimum of 5 LEED points be achieved in LEED credit
EA 1 (utilizing version 3 of the LEED standards. Set efficiency standards for the installation of new HVAC
equipment to be 5% better than ASHRAE 90.1, 2007 to assist in achieving the 5 LEED points in EA 1).
In addition, the following was recommended: providing education to the HVAC industry of these new
standards; publishing a list of efficiencies for common types of HVAC equipment; developing an
Inspection (Town) protocol; and removing hurdles to permitting wind and solar structures with Town
TownofHuntington‐ClimateActionPlan June2015
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zoning code. (Initiate a discussion with “regulatory” agencies/departments to create clear, “user
friendly” requirements for solar, geothermal heat pumps and wind).
Communicate Successes
The final implementation action to meet the Plan’s goal was to communicate successes. The Master Plan
suggested that as the Town and its residences and businesses achieve success in this goal it is imperative
to publicize milestones to increase awareness and accelerate the achievement of milestones.
Other actions under consideration by the Town include the following:
• Continue with budgeting for conservation and sustainability measures as part of the Town’s
annual budget process.
• Continue with the establishment of energy utilization baselines for all Town owned facilities.
• Continue with the establishment of goals for the Town for reductions in carbon emissions and
energy use.
• Continue with amendments to the Town’s energy codes (and requirements for Town‐owned
and operated facilities) to reflect the importance of Sustainable Design and Practices.
• Consider a policy requiring compliance with LEED principles, although not certification, for new
construction and major renovations of Town buildings, and for projects “built to suit” for long‐
term lease.
• Consider a policy for the Town to give preference to space that is certified under Energy Star,
LEED, or equivalent sustainability constructions or standards for Town leases.
• Consider a policy to give preference to projects that will have a major impact on achieving the
Town’s sustainability goals.
• Consider ASHRAE compliant Energy Audits for all facilities starting with facilities that use the
most energy.
• Consider a policy requiring green roofs or cool roofs for new construction or renovation of
facilities with flat roofs.
• Consider building envelope projects like improved insulation, infiltration sealing, window
shading and new windows.
• Consider a policy that establishes the requirement/use goals of renewables (in conjunction with
Section 1.2) for renovations, rehabilitations and new construction of Town Facilities.
o Consider where present installation of renewable technology is deemed inappropriate,
that, at a minimum, items such as conduits, wiring or piping for future renewable
installations shall be included as part of the renovations and rehabilitations being
undertaken.
• Consider a policy requiring any municipal facility replacements, renovations or new construction
to have energy efficient building Heating, Ventilation and Air Conditioning (HVAC) systems be
evaluated/installed:
o Require an evaluation of and conversion to a more sustainable energy source as part of
replacement/renovation process.
o HVAC equipment
TownofHuntington‐ClimateActionPlan June2015
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Use of independently certified energy saving products (i.e. Energy Star)
Evaluation of rebate eligible equipment
Percentage performance increase in efficiency (i.e. 20%)
Evaluation of full Life Cycle Cost
o HVAC distribution
Evaluation of full Life Cycle Cost
o HVAC controls
Programmable thermostats with setback controls
Building management (BMS) systems
Variable Frequency drives on all motors and compressors
CO2 sensors
Economizers
• Consider a policy requiring any municipal facility replacements, renovations or new construction
to have energy efficient lighting and lighting systems be evaluated/installed:
o Lighting in general
Use of independently certified energy saving products (i.e. Energy Star)
Evaluation of rebate eligible equipment
Percentage performance increase in efficiency (i.e. 20%)
Evaluation of full Life Cycle Cost
o Lighting Devices
LED
Induction
Compact Fluorescent
Any additional New efficient lighting technologies
o Lighting Controls
Occupancy sensors
Timers
Daylighting systems/controls
• Consider a policy requiring any municipal facility replacements, renovations or new construction
to have energy or sustainable resource efficient electrical/plumbing furnishings and equipment
be evaluated/installed:
o In general:
Use of independently certified energy saving products (i.e. Energy Star)
Evaluation of rebate eligible equipment
Percentage performance increase in efficiency (i.e. 20%)
Evaluation of full Life Cycle Cost
o Examples
Hand dryers
Variable Frequency drives (pumps, motors)
Appliances
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Vending machines
Copiers
Computers
Toilets
Urinals
Faucets
Showers
• Consider a policy when designing any new Town facility parking lots (and any planned
renovations of existing parking lots) to require the incorporation of renewable energy systems.
• Consider a policy to require new separate metering (and/or sub metering) on new systems
being installed in Town Facilities.
• Consider a policy to require new separate metering (and/or sub metering) on existing systems in
Town Facilities.
• Consider a policy to require cost/benefit analysis based on Life Cycle Costs for replacements of
construction items be conducted (not just cheapest items, to avoid premature replacements or
reduced sustainable features from being employed).
• Consider a policy to require use of independently certified energy saving products (i.e. Energy
Star) in new and existing Town Facilities. If a rating is unavailable, consider products in the top
25% of energy efficiency for appliance, equipment of its type or an equivalent documented
sustainability benefit.
• Consider a policy to require the use of independently certified water efficient products (i.e.
WaterSense®) in new and existing Town Facilities. If unavailable, consider products in the top
25% of water efficiency for equipment or device or that provides an equivalent documented
sustainability benefit.
• Consider a policy to evaluate building products that are known to enhance the health and
wellbeing of Town employees.
• Consider a policy to require 70% of all Town facilities’ building construction, remodeling and
demolition waste be recycled.
• Consider a policy to require a reduction in all other Town waste that is produced and not
recycled.
• Consider a policy to reduce (and eventually eliminate) use of potable water for all Town facility
building‐related landscape irrigation.
• Consider a policy to encourage renovations rather than new construction for Town facilities.
• Consider a policy to require green building expertise in selection of professional consultants.
• Consider a policy to require a commissioning component for all projects with the commissioning
requirements specifically being tailored to the size and complexity of the building/system to
assure that the project needs have been met, systems perform efficiently and as intended, and
that operators/users are properly trained.
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• Implement web‐based interface and dashboard of building automation systems to monitor and
control all Town‐owned buildings. This can be electronically linked to building drawings,
equipment operation guides, and maintenance records
• Make municipal facilities available for third parties to install and test new or emergent
technologies and systems
• Consider a policy to evaluate technologies that are known to enhance the productivity of Town
employees
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2.2 Renewables
Renewable energy technologies are clean sources of energy that have a lower environmental impact
than conventional energy technologies. Most renewable energy investments are spent on materials and
workmanship to build and maintain facilities, rather than on energy imports. This helps to create local
jobs, lower greenhouse gas emissions, and reduce reliance on foreign sources of energy. As an example,
the solar PV industry creates 22.4 jobs per megawatt while natural gas in comparison creates 1.13 jobs.
New York State has a distinguished history of renewable energy leadership. The goal of using renewable
energy sources is to reduce greenhouse gas (GHGs) emissions, improve energy security, and
independence, reduce respiratory and other health impacts caused by GHGs and attract renewable
resource generators, manufacturers, and installers to New York. The state has taken several steps to
achieve these objectives.
In 2004, the Public Service Commission (PSC) adopted a Renewable Portfolio Standard setting a goal of
increasing the proportion of renewable electricity used by New York consumers from the 2004 level of
19.3% to at least 25% by 2013. In 2014, the PSC commenced its Reforming the Energy Vision (REV)4
initiative to reform New York State’s energy industry and regulatory practices.
In 2009, the NYS Department of Environmental Conservation (DEC) issued its Executive Order No. 24 for
NYS reduce its GHG emissions 80% by 2050.5 While in 2014 the New York State Energy Research and
Development Authority (NYSERDA) issued its first draft of its Clean Energy Fund (CEF) Proposal6. These
initiatives all support the “80 by 50” goal of the DEC.
The Town of Huntington used 23,928,243 kWhs of electricity in 2010 at a cost of $4,130,315.
2.2.1 PastActionsandAchievements
12.6 kW Solar PV used to power the Electric Vehicle (EV) Charging Station at LIRR Station in
Huntington Station.
5 kW Rooftop PV on new Business Incubator.
28 kW PV system on the roof of Town Hall
3 EPA Clean Energy Strategies for Local Governments On‐site Renewable Energy Generation (2008). Figure 7.2.1. “Job Creation From Renewable Energy Projects per MW Capacity,” "http://www.epa.gov/statelocalclimate/documents/pdf/on‐site_generation.pdf. 4 NYS Public Service Commission Staff Report and Proposal, Reforming the Energy Vision, http://documents.dps.ny.gov/public/Common/ViewDoc.aspx?DocRefId={5A9BDBBD‐1EB7‐43BE‐B751‐0C1DAB53F2AA} 5 Department of Environmental Conservation, Executive Order No. 24 (2009), “Establishing a Goal to Reduce Greenhouse Gas Emissions Eighty Percent by the Year 2050 and Preparing a Climate Action Plan,” http://www.dec.ny.gov/energy/71394.html. 6 New York State Energy Research and Development Authority Clean Energy Fund Proposal, http://www.energymarketers.com/Documents/NYSERDA_Clean_Energy_Bank_proposal.pdf.
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2.2.2 ProjectsandPoliciesCurrentlyUnderConsideration,DevelopmentorImplementation
As part of the operations of the Town of Huntington’s Wastewater Treatment Plant, the methane gas
that is generated in the digesters is currently flared off. A new project would capture that methane gas
and supplement it with a new natural gas line to run a new 65kW Micro Turbine for Combined Heat and
Power (CHP). The electricity generated by the micro turbine would reduce the electrical load of the
sewage treatment plant by approximately 550,000 KWh per year, and ease the electrical demand on the
grid. In addition, the waste heat generated by the micro turbine would be used to heat the digesters
which are currently heated by a boiler operating on fuel oil. Therefore, converting the boiler to natural
gas will eliminate the annual fuel oil consumption of approximately 13,000 gallons per year. The boiler
will only be used to supplement the waste heat from the micro turbine. The elimination of the methane
gas emissions will eliminate average annual Greenhouse Gas emissions by approximately 5,000 Metric
Tons of Carbon Dioxide Equivalent (MtCO2e).
2.2.3 PotentialFutureActionsandInitiatives
The Plan recommended installation of solar PV capacity on every facility that can reasonably support it.
It was suggested that the Town inventory facilities collecting the following data: location, square feet of
southern exposed roof, roof pitch, age of roof, current electric demand, determination of clear line of
sight to the southern sky, etc. Once this inventory has been taken, facilities can be ranked and
prioritized. To achieve economies of scale, the Town should bid multiple installations together and/or
use requirements contracts to promote efficiencies.
Noting that solar thermal is an economical way to heat water the Plan suggested its use in Town of
Huntington facilities. Nearly all Town facilities have hot water needs that are currently being met by
conventional electric, natural gas and oil sources. As these conventional systems come up for
replacement, solar thermal systems should be used where solar systems can be installed.
Wind is a clean, non‐fossil fuel source of energy. Wind parks are a fast‐growing industry around the
globe and are becoming cost competitive with fossil fuel sources. Currently, Huntington has a
moratorium on wind turbines, while reviewing the efficacy of their use in largely built out suburban
settings. As it considers, Huntington should study the feasibility of installing demonstration turbines at
one or more of the larger properties in the Town’s portfolio where acreage and the wind resource are
adequate. The Plan recommended an analysis of Town properties for attributes conducive to wind
power such as average sustained wind speed (ASWS), optimum height of ASWS, space required for
tower(s), and available electrical demand. In addition to site selection, it was suggested that the Town
conduct a public education and outreach program to focus attention on the potential benefits of wind
power. The following types of locations were recommended for study as feasible wind power
demonstration sites:
• Large Parks (e.g., Dix Hills, Crab Meadow)
• Town beaches
• Highway facilities
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The Plan also addressed bio‐gases, specifically methane recapture to supply power for the sewer
treatment facility. The Federal government pre‐qualified the following five companies for implementing
Federal Biomass and Alternative Methane Fuels initiative. The Town can start the ball rolling by
contacting pre‐qualified vendors:
• Constellation Energy Source, Baltimore, MD
• DTE Biomass Energy, Inc., North Falmouth, MA
• Energy Systems Group, Evansville, IN
• Exelon Services Federal Group, Knoxville, TN
• Honeywell International, Phoenix, AZ
Other actions under consideration by the Town include the following:
• Explore the feasibility of geothermal heat pump systems at municipal facilities.
• Explore public‐private partnerships to provide sites for new renewable technology projects.
• Explore educational partnerships and training programs.
• Seek renewable incentives from PSEG Long Island
• Seek funding for renewable energy technology projects through any NYS program that is
deemed suitable.
• Consider purchasing Green Power through the EPA Green Power Purchase program.
• Evaluate existing requirements for renewable energy at Town facilities. (Prince George County,
Maryland: requires the County to budget an additional 2 percent in construction costs for every
building to pay for a renewable energy installation. Every building must have 1 kilowatt of clean
energy for every 1,000 square feet of gross floor area. 2013)
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2.3 ExteriorLighting
Improving the efficiency of exterior lighting is one of the simplest, yet most effective changes to be
made at the municipal level. In the municipality exterior lighting consists of street lighting, parking lot
lighting and ball field lighting.
Street lighting represents over 40% of the Town’s electrical cost. Conversion of the existing high‐
pressure sodium (HPS) street lighting fixtures to high efficiency induction ones will have a substantial
and beneficial impact on the Town’s energy efficiency strategy to reduce street lighting energy
consumption by up to 50%. The induction fixtures are rated for 100,000 hours, or roughly 20 years, as
compared to the average life of 2 years for the HPS. It will also lower maintenance costs. The Town has
almost 19,000 street lights that consumed 7,730,754 kWh in 2008 before the conversion began.
2.3.1 PastActionsandAchievements• Upgraded 26% of street lighting from existing HPS fixtures to induction fixtures; 80% was funded
with USDOE and NYSERDA grant money. This project is ongoing with Town funds.
Replaced all lighting fixtures at LIRR Huntington Station South Parking Garage with induction
fixtures funded in part with EOSPA funds.
2.3.2 ProjectsandPoliciesCurrentlyUnderConsideration,DevelopmentorImplementation
Replace all lighting fixtures at LIRR Huntington Station North Parking Garage with induction
fixtures funded in part with EOSPA funds.
2.3.3 PotentialFutureActionsandInitiativesIn light of rapid advances in LED technology and cost reductions, consideration should be given to
modifying this project to begin using LED lighting and focused fixtures in place of induction lamps.
This will further increase the electricity cost savings above that expected from the high efficiency
induction lamps.
• Perform audit of all exterior lighting in the Town facilities.
• Convert remaining metal halide and high‐pressure sodium lighting fixtures to more efficient LED
or induction technology based on life cycle cost. Inventory SKU minimization should be
considered.
• Evaluate “Quality of Lighting” factors including focusing of light dispersion to needed areas,
limiting wasted, stray light and over‐lighting, and improving light uniformity through the use of
application‐specific light fixtures, reflectors and improved reflector material. The goal is to
reduce the total number of lighting fixtures and wattage required, while still maintaining safe
lighting levels.
• Explore the feasibility of renewable sources of power for streetlights.
• Consider the feasibility and cost savings of utilizing presence sensors for lights on public
buildings and structures. They save power by operating at low (idle) level normally, and full
power upon presence of people and vehicles. Pending updates to exterior lighting code that are
expected to be adapted by NY State will require these features for new construction and major
renovations.
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2.4 Fleet
There are numerous benefits to developing a more fuel efficient fleet. By purchasing and driving vehicles
that have a higher fuel efficiency rating, the Town can decrease greenhouse gas emissions while cutting
fuel costs. The initial additional cost associated with more fuel efficient vehicles can typically be
recouped in a relatively short time.
Each Town department makes independent purchases of vehicles. There is no central purchasing or
management of fleets. As of 2007, Huntington had already purchased:
6 Honda hybrids
4 GEM cars
4 John Deer lawn tractors (electric)
1 Zamboni (electric)
6 Ford escape hybrids
8 Toro workman plug‐ins
As of the publication of the 2010 Renewable Energy Task Force (RETF) Draft Energy Master Plan, the
Town had planned to purchase three more Ford Escape hybrids, two hybrid buses and one all electric
bus, as well as retrofitting a diesel garbage truck to be hybrid. As of 2010, the Town had 27 hybrid
vehicles in its inventory and had replaced gasoline‐powered General Services equipment with electric
versions.
Using USDOE funding, administered by Greater Long Island Clean Cities Coalition (GLICCC), Huntington
has retrofitted four (4) trucks, purchased one (1) new CNG truck and placed an order for one (1) more.
The Town is currently planning to order at least one (1) more CNG truck for its fleet.
2.4.1 PastActionsandAchievements
Leased several electric vehicles but leases expired and vehicles were returned
Purchased 14 hybrids, 11 flex fuel vehicles, and 4 CNG garbage trucks
Constructed CNG fueling station in cooperation with the Town of Smithtown at the landfill
Retrofitted is in the process of converting its Huntington Area Rapid Transit (HART) bus fleet to
Clean Diesel.
2.4.2 ProjectsandPoliciesCurrentlyUnderConsideration,DevelopmentorImplementation
• Ongoing conversion of the refuse hauling fleet to CNG.
• Ongoing retrofitting and/or conversion of its HART bus fleet to Clean Diesel. Ongoing conversion
of vehicle fleet to more energy efficient and/or hybrid cars/trucks.
• Collaborate with other Nassau and Suffolk towns to obtain operating experience and
cost/benefit information on the operation of fleet vehicles operating with alternate fuels.
Compare the results with the operating experience and cost data for the Huntington Town
owned vehicles.
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2.4.3 PotentialFutureActionsandInitiatives
Mass Transit
The Town should promote greater use of HART bus service. Innovative promotions to raise ridership.
The Town should consider collaborating with businesses along established routes to enhance customer
feedback to improve the value of the bus services to the community.
Other actions under consideration by the Town include the following:
Replace or convert vehicles, focusing on alternative fuel vehicles, hybrids and electric vehicles to
improve gas mileage, reduce emissions, and potentially cut life‐cycle/operational costs.
Consider municipal capital leasing in place of purchases to eliminate upfront cost. Capital leases
would allow for the purchase of additional or more expensive hybrid or electric vehicles.
Determine best locations for charging/filling stations, in coordination with other municipalities
and private facilities. Potential locations could include: municipal facilities, transit stations,
schools, and office complexes. Explore entering into multi‐year contracts for private companies
to install charging/filling stations for use by the public.
Install GPS tracking, route optimization and anti‐idling technology in fleet vehicles.
Deposit a percentage of fuel cost savings into a municipal Climate Smart Fund (see Operations).
Acquire a fleet decision‐making tool and implement standardized purchasing guidelines
Explore the feasibility of reducing fleet size. This could be achieved through vehicle sharing
between departments and sharing between the Town and special districts, such as the school
district.
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2.5 SolidWaste,WastewaterandStormwater
Sewage collection and treatment in the Town of Huntington is provided in six sewer districts. The three
County districts include the Southwest district (CSD‐03), the Strathmore district (CSD‐05) and the Walt
Whitman Mall district (CSD‐17). The Town operates the Huntington (TSD‐06) and the Centerport (TSD‐
07) sewer districts. The Village of Northport is served by the Northport Village Sewer district (VSD‐02).
Efforts to reduce water consumption can reduce the flow to the treatment plants and thus reduce the
energy consumed for treatment.
Efficient management of solid waste is also vital to the health of the Town, as every step in the life cycle
of municipal solid waste (MSW) management contributes to greenhouse gas emissions— from the
production of the products that eventually become municipal solid waste to its collection and eventual
decomposition.
It is important to find synergies to alter the path of solid waste, out of the septic/sewer system and into
alternative fuel/fertilizer stream where it can be utilized, not deposited as refuse and treated.
The Town should also re‐evaluate the current stormwater systems in relationship with increases of
storm events by using multiple options for water currently being guided to aquifers.
2.5.1 PastActionsandAchievements
• Established a solid waste recycling facility that accepts glass, paper, metal, and electronics
• Established a hazardous waste (paints, batteries, petroleum solvents, etc.) drop‐off facility.
• Added an e‐waste (computers, phones and other electronic equipment) location at the drop‐off
facility.
• Instituted curbside "single stream" recycling in a program, "Huntington Recycles: All In One" as
of January 2105. Single stream recycling refers to placing all acceptable recyclables (bottles,
cans, plastics, paper and cardboard) in a single container for collection. Residents will no longer
need to sort their paper and cardboard from their bottles and cans, nor will they have to keep
track of whether it is a “paper pick up week” or a “bottles and plastic pick up week.”
• Retrofitted the Sewage Treatment Plant with:
o HVAC System Upgrade (Electric to Natural Gas)
o Energy Efficient hybrid compressor blowers (3) that reduced amount of energy needed
for drying post‐treatment sludge.
o Retrofitted natural in‐pipe, up‐stream biodegrading technology, reducing energy usage.
o Energy Efficient LED Lighting Retrofit (All Fixtures).
2.5.2 ProjectsandPoliciesCurrentlyUnderConsideration,DevelopmentorImplementation
• Removal & Replacement of Rotating Biological Conductor #1 (RBC) the primary form of pre‐
treatment for the scavenger waste, reducing demand for electrical energy and chemical
treatment. (RBC #2 replacement scheduled for 2016.)
• Convert sewer facility to natural gas, starting in 2015, reducing carbon footprint by eliminating
the use of oil as a fuel.
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• Install new multi‐fuel capable Digester heat exchange boiler & digester pumps, yielding energy
efficiency gains.
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2.5.3 PotentialFutureActionsandInitiatives
2.5.3.1 SolidWaste• Implement paperless office preference in Town offices
• Consider programs to reduce the use of Styrofoam and other disposable products throughout
the Town. (NYC, 2015, passed a law to ban the use of plastic‐foam, such as Styrofoam, food
service containers.)
• Explore feasibility of a regional composting initiative ‐ potential partners: five east end towns
• Consider creating local laws governing construction waste and where it is sent. There is a value
to these products which is lost if it is merely brought to a dump.
• Consider that when local trees need to be taken down, the best, highest use could be to make
lumber, or paneling, instead of shredding it for wood chips. Many local mills search out fallen
trees as the have a value and can be used in building/decoration.
2.5.3.2 Wastewater• Explore the feasibility of a single Town‐wide water/wastewater district that includes all
properties, sewered and unsewered
• Consider a Water Protection Fee in place of sewer fees that is paid by all property owners. Fee
based on water use, assessed value, on‐site system, or sewered connection. All wastewater
systems contribute to the nitrification of groundwater and local waterways. Funds could be used
for maintenance of wetlands or other forms of climate adaptation
• Utilize the Water Protection Fee to upgrade onsite systems (OWTS) and wastewater treatment
plants (WWTPs), construct new regional and community WWTPs, and service all OWTS and
WWTPs
• Consider gray water reuse systems for appropriate Town facilities, such as golf courses and
parks
• Consider developing a system of monitoring and repairing wastewater infrastructure. Home
laterals and septic tanks both require regular inspections and maintenance
• Build awareness of water conservation and utilization and its impact on our aquifers and its
impact for future development in Town departments.
• Consider expanding the sewer district area. This is a long term project and may be driven
forward as a result of Huntington Station revitalization plans.
2.5.3.3 StormwaterRunoff• Consider ways to redesign recharge basins to enhance the surrounding neighborhood with
vegetation and a water feature to add value as well as function to an existing retention pond.
• Consider having regular inspections, if this is not already done, to keep recharge basins free
from dumping (not just toxic waste, but old tires, shopping carts, etc.).
• Consider designing new rain gardens and/or using permeable paving in lieu of impervious paving
at sidewalks and roadways to allow water to percolate back into the soil.
• Consider using an agreed‐upon percentage of area at public parks or local green pockets to
become retention ponds.
• Consider new designs using permeable pavers when fixing or replacing existing hardscape for
town‐wide locations, as well encouraging this for local commercial and residential retrofits.
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2.6 Operations
Environmentally preferable products, services and operations have a reduced effect on human health
and the environment when compared with competing products or operations. Often, small changes to
purchasing and operating protocols contribute significantly to meeting the Town’s environmental goals,
improving worker safety and health, and reducing health and disposal costs. These small shifts in the
selection of products and office operational practices can have a major impact on energy use and
expenses.
All Town operations personnel should be reminded their facilities may qualify for some of the EOSPA
green funding recommended by ACEERS to promote energy efficient projects.
In order to promote and prioritize sustainability throughout the Town, it is important to have the Town
staff with the requisite qualifications and training in place. It is also important to have the active
participation of members of the Town Board.
The Town can promote effective energy choices and decisions by recognition and offering awards. A
town “Green award” could recognize improvement through sensible decision making at the operations
level. The intent is to build a mindset and culture that rewards sustainable thinking in the Town and that
contributes to operations and purchasing decisions of all sizes to contribute to the overall goal.
All operations personnel need to be made aware of the existence of the ACEERS committee its
willingness to help them with their evaluations. As the Town’s Climate Smart Committee, it is available
to guide and assist in climate smart purchases, researching potential incentives and calculating return on
investments, etc., helping them evaluate optional technologies and products.
2.6.1 PastActionsandAchievements
The Plan recommended that that Town establish a full‐time position reporting to the Town Board to
develop a culture that embraces renewable energy in Town projects, purchases, and planning. It
suggested that the Sustainability Officer actively review capital projects and large‐scale maintenance
projects to ensure that all opportunities to capitalize on renewable energy are included in project
parameters. The Sustainability Officer, it said, should also develop town‐wide renewable energy
standards. The Town established that position in 2009 and has since employed a Chief Sustainability
Officer who has been involved in the following projects:
A fast track policy in the Building Department to expedite solar (PV and thermal) project building
permits.
The Town’s updated website, which allows people to obtain information and download forms,
such as building permit applications, quickly, avoiding the need to drive to Town Hall.
The Sustainability Officer has also been instrumental in writing successful grant proposals:
Energy Efficiency & Conservation Block Grant (EECBG) by the United States Department of
Energy in the amount of $1,725,000. USDOE, thereafter, approved Huntington's five (5)
recommended and partially funded project activities:
o Project 1: Energy Efficient Street Lights
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o Project 2: Renewable Energy Solar Photo‐Voltaic Panels on Town Hall
o Project 3: LEED Feasibility Study for Town Hall
o Project 4: Residential Energy Efficiency Retrofit Program
o Project 5: Long Range Energy Efficiency Plan
NYS Energy Research & Development Agency Grants partially funded:
o Project 1: Energy Efficient Street Lighting permitted the Town to extend it project to
replace its high wattage, energy inefficient High Pressure Sodium streetlights with high
efficiency Induction lamps. Total bulbs replaced under this grant project: 1,846.
o Projects 2/3: Installation Solar Photo‐Voltaic Panels/Installation of Electric Vehicle (EV)
Charging Station
The Town Hall solar photovoltaic (PV) project has been a huge success and its visibility sends a clear
message that renewable energy and sustainability are town priorities and that the town is leading by
example. This was a project that grew from an operations re‐roofing and alterations project.
The successful street light relamping project was made possible by best practice strategies.
2.6.2 ProjectsandPoliciesCurrentlyUnderConsideration,DevelopmentorImplementation
The Town continues participation in the Better Buildings Challenge to reduce the energy consumption of
commercial and industrial properties in the United States by 20% by 2020.
The “Armory” project and its adaptive reuse is currently in the planning stage. If it can be used as a
model green renovation, its success will serve as a testament to comprehensive energy choices and
climate smart considerations. Recognition that grant monies may be available serves as an example of
all‐encompassing Operations planning.
2.6.3 PotentialFutureActionsandInitiatives
The Plan also recommended that the Town identify a Board member who would focus on sustainability
and serve as a liaison to the Task Force. It was suggested that this Town Board member spearhead the
work of the ACEERS and help lobby for outside funding and grants to aid in the change to renewable
energies and sustainable design. The Board member should meet periodically with the ACEERS and
maintain ongoing contacts with Federal, State and County legislators representing Huntington who can
assist Huntington with funding and legislation. Additionally, it was recommended that the Board
member should act as the Town’s spokesperson in presenting innovative proposals to Federal and State
granting agencies. The ACEERS hoped to achieve a high level of commitment from elected officials at all
levels of government.
Other actions under consideration by the Town include the following:
• Communicate the existence of ACEERS and the Climate Smart Committee (CSC) to Town
personnel and motivate Town departments and facilities managers to work collaboratively with
them.
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• Consider implementing energy‐saving office practices, including: automatic shutdown of
computers after a designated time; installation of light sensors and occupancy‐driven
heating/cooling
• Consider implementing Asset Management System to track material, equipment, and labor
expenditures to identify savings opportunities
• Consider implementing a Town‐wide green‐purchasing policy
• Consider implementing a group purchasing policy. Where possible, look to collaborate with
other municipalities and agencies in an effort to reduce capital costs. Organizations such as the
Long Island Purchasing Council (LIPC) can help to facilitate group purchase agreements.
• Consider encouraging Town operation personnel who are the purchasing decision makers to
work with the CSC to make sound energy choices and climate smart environments across all
Town facilities.
• Consider encouraging paperless operations within departments as a goal.
• Consider establishing a Town Environmental Savings Fund, or Climate Action Fund, to save funds
generated by energy savings for use in funding future Climate Smart projects and purchases
and/or community‐wide Climate Smart projects. This may require centralized purchasing of
certain products and services
• Consider instituting a “Green Service Award” or “Green Manager of the Month/Year” to
promote and recognize renewable and/or energy efficient choices and decision‐making at the
operations level by Town departments or facilities managers to build a mindset and culture
focused on sustainability and energy efficiency in the Town.
• Consider instituting a “Green Building of the Month/Year” designation for a building, such as a
Town’s school, library or other municipal facility for that models renewable and/or energy
efficient choices.
• Consider instituting Town Engineering and Building Departments policies to promote energy
efficient projects by fast‐tracking extreme energy efficient projects such as LEED platinum,
Passive House‐certified or Zero‐Net energy. They should also adjust and reduce the building
permit fees accordingly.
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3 COMMUNITY‐WIDEPOLICIESANDINITIATIVES
3.1 ResidentialBuildings
According to the US Energy Information Administration most recent Residential Energy Consumption
Survey, US homes built in 2000 and later consume only two percent more energy on average than
homes built prior to 2000, despite being on average 30 percent larger7. The same agency also found a
decline in the proportion of energy consumption used for heating and cooling (48 percent in 2009 vs. 58
percent in 19938). The study attributed the decline to increased adoption of equipment that is more
efficient, better insulation, more efficient windows, and population shifts to warmer climates. Some of
the decline is also due to increased energy consumption for non‐heating or cooling appliances and
electronics. Although larger appliances such as refrigerators and clothes washers are more efficient, the
increasing number of energy‐consuming devices has offset these efficiency gains, so they account for a
greater percentage than in the past. Nonetheless, buildings account for about 40 percent of the
country’s energy use9.
3.1.1 Laws,CodesandRegulationsinEffect
In 2008 the Town adopted the ENERGY STAR® Certified Homes Program requirement for
new single family home construction.
In 2010 the Town superseded Energy Star labeled code to require newly built or
substantially reconstructed single family homes to follow the new Energy Conservation
Construction Code of New York State (ECCCNYS 2010). This new code included being rated
by an independent Residential Energy Services Network (RESNET)‐certified Home Energy
Rating System (HERS) rater, and achieving a home energy rating index of 70 or lower.
In 2010 the Town adopted a fast‐track system for the installation of solar PV and solar
thermal systems for residential properties.
Participates in Long Island Green Homes program, promoting home energy audits and
performance upgrades to residents
Participates in Long Island Green Homes Coalition to promote energy audits and home
efficiency improvements through NYSERDA and PSEG‐Long Island programs to residents.
3.1.2 PotentialFutureActionsandInitiatives
A critical aspect of energy efficiency education is the need for reliable and comparable energy usage
data for homeowners and renters similar to a miles‐per‐gallon rating on a new car, similar to the
EPA/DOE Yardstick. ACEERS recommended that the Town consider adopting an energy consumption
7 Energy Information Administration, Newer U.S. homes are 30% larger but consume about as much energy as older homes, February 12, 2013, http://www.eia.gov/todayinenergy/detail.cfm?id=9951. Accessed 3/2/15. 8 EIA, Heating and cooling no longer majority of U.S. home energy use, March 7, 2013, http://www.eia.gov/todayinenergy/detail.cfm?id=10271. Accessed 3/2/15. 9 EIA, FAQs: How much energy is consumed in residential and commercial buildings in the United States?, June 18, 2014, http://www.eia.gov/tools/faqs/faq.cfm?id=86&t=1. Accessed 3/2/15.
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calculation for the purpose of benchmarking the homes in the Town of Huntington for not only its new
and substantially reconstructed buildings, but also for existing residential housing stock.
The calculation would be conducted once every five years and sent to the Town to help it establish its
carbon footprint. In developing this requirement, the Town should evaluate the potential financial
impacts on buyers and sellers and establish exemption guidelines for hardships or where data is
otherwise available and re‐testing is unnecessary.
The audit should comply with the Building Performance Institute (BPI) Standards for residential energy
audits (BPI‐1100‐T‐2012). This audit procedure complies with the state and PSEG‐Long Island programs
that promote improvements to residential energy efficiency. While not guaranteed for the future, these
audits are also currently subsidized by NYS and PSEG‐Long Island, so for most consumers there is no
additional cost for the audit.
A requirement for what might be called an “Energy Performance Certificate” (EPC) would be a low‐cost
strategy to target residential energy GHG emissions, the largest single portion of the region’s GHG
emissions. The time of home sale/rent is one of the few intervention points that municipalities have to
encourage existing homeowners (or landlords) to upgrade homes.
An EPC would report the results of an assessment of a home’s energy performance that would be
carried out using a program that has been validated by NYSERDA for use in the Home Performance with
Energy Star® program. Currently, these include Real Home Analyzer by Conservation Services Group and
TREAT (Targeted Retrofit Energy Analysis Tool) by Performance Systems Development. Several others
are also being evaluated by NYSERDA and would be incorporated as they are approved. To be most
effective in incentivizing energy efficient improvements, the audit should be paid for by the seller prior
to the property transfer, if the seller is not eligible for one or more programs that cover the cost of the
audit.
The Plan also recommended that the Town adjust its energy codes to reflect the importance of
sustainable design. Leadership in Energy and Environmental Design (LEED) is a rating system developed
by the U.S. Green Building Council (USGBC). It is the most commonly used standard used to certify green
buildings for new construction and major renovations. Buildings account for about 40 percent of our
nation’s energy use and are a major source of greenhouse gas emissions. It was also recommended that
new construction and major renovations throughout the Town achieve LEED certification through the
USGBC. As part of this implementation action, the Plan set out the following goals:
• A minimum of 5 LEED points should be achieved in LEED credit EA 1 utilizing version 3 of
the LEED standards
• Set efficiency standards for the installation of new HVAC equipment to be 5% better
than ASHRAE 90.1 2007 to assist in achieving the 5 LEED points in EA 1
• Educate the HVAC industry of these new standards
• Publish a list of efficiencies for common types of HVAC equipment
• Develop an inspection protocol for these installations
• Implement the Inspection protocol
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Other actions under consideration by the Town include the following:
• Require newly built or substantially reconstructed multi‐family homes to follow the ECCCNYS
2010. This includes being rated by an independent Residential Energy Services Network
(RESNET)‐certified Home Energy Rating System (HERS) rater, and achieving a home energy rating
index of 70 or lower.
• Incentivize mixed use/mixed income development in village/hamlet centers, downtowns, and
transit hubs by reducing sewer connection fees. Discourage development in less desirable areas
(valuable open space/undeveloped land etc.) by increasing connection fees and making program
revenue neutral. Cleaner Greener Communities Regional Sustainability Plan may be able to
provide funding for incentives.
• Explore energy‐efficiency measures for multi‐family housing. These properties can offer unique
opportunities due to shared systems. These properties can also provide ideal locations for
renewable energy generation.
• Offer refunds of LEED certification fees for eligible projects. (Town of Babylon, 2006) Cleaner
Greener Communities Regional Sustainability Plan may be able to provide funding for incentives.
• Require home sellers to provide an elevation certificate for properties located within the
floodplain/flood hazard area. Elevation certificates are an important part of the flood insurance
process ‐ securing one will enable a homebuyer to obtain an accurate flood insurance premium
cost prior to closing. (Strengthen New York Summit, 2012)
• Participate in carbon monoxide awareness campaign to promote health and safety of residents
and to encourage home energy audits and regular maintenance of combustion appliances for
both safety and energy efficiency.
• Develop flood and emergency preparation materials for distribution to homeowners. Potential
information could include: emergency preparedness procedures, directory of local resources
and services, as well as information about flood insurance, home retrofits and resilient building
material requirements for properties within flood hazard areas.
• Continue to promote residential recycling and home composting campaign.
• As part of the site plan review process, require new residential construction to incorporate
stormwater management features. Could include permeable surfaces/paving, green/white
roofs, catch basins, water recycling for irrigation/landscaping etc. Cleaner Greener Communities
Regional Sustainability Plan may be able to provide funding for incentives.
• Consider promoting the use of rain barrels throughout the Town to curb stormwater runoff
from the roofs of residential properties.
• Build awareness of water conservation and utilization and its impact on our aquifers and its
impact for future development.
Provide free water and energy audits for low‐income units in the Town.
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3.2 CommercialandIndustrialBuildings
Reducing energy and operating costs for local businesses helps both the environment and the local
economy.
3.2.1 Laws,CodesandRegulationsinEffect
• Require LEED standards for new construction of commercial buildings with over 4,000 square
feet of floor area.
Dark skies outdoor lighting requirements.
3.2.2 PotentialFutureActionsandInitiatives
It was recommended to enact measures to increase energy efficiency in commercial and industrial
buildings and attract “green” businesses to Huntington. The Plan recommended that the Town
incentivize the creation of energy usage baselines for commercial facilities and develop a list of
conservation measures for commercial facilities to adopt as well as qualified service providers for their
installation.
PACE
It was recommended that the Town establish a revolving fund through which commercial entities could
borrow money from the municipality to finance conservation measures. It was further suggested that
commercial entities would re‐pay the Town/sponsoring public agency monthly with financing structured
so that money saved through energy savings would be greater than the monthly loan repayment,
creating a net positive cash flow for the commercial entity.
That mechanism has since been established in the State. The New York State Energy Improvement
Corporation’s Energize NY (PACE) Benefit Financing Program/Energize NY (local level) is now available
for municipal membership. The Benefit Financing Program offers financing for energy upgrades on real
property using PACE (Property Assessed Clean Energy) financing. The Energize NY Program provides
marketing and outreach assistance for energy upgrade programs at the local level. The Town should
consider participating in the program to establish a PACE funding mechanism for commercial property
owners to finance energy‐efficient improvements, reducing both emissions and daily operating costs.
Other actions under consideration by the Town include the following:
For larger commercial/industrial properties, investigate the feasibility of installing on‐site
wastewater treatment systems, incentivize the installation of such systems
Amend zoning code to allow for infill development near the Town's transit hubs and
employment centers. Limit/prevent significant commercial development outside of these areas
(helps to reduce energy consumption and the need for new infrastructure)
Explore the feasibility of requiring or incentivizing white/green roofs for commercial/industrial
properties
Explore the feasibility of requiring or incentivizing electric vehicle charging stations at centers of
employment
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Develop an expedited permitting process for private installation of alternative fuel and electric
vehicle charging infrastructure at commercial/industrial properties
Develop expedited permitting for site plans that incorporate sustainable features and/or
practices.
Explore the feasibility of a local green business incubator
Recommend energy‐efficiency benchmarking (using EPA Portfolio Manager) for commercial
buildings greater than 10,000sq. ft. (NYC Local Law 84 of 2009)
Promote energy‐efficiency benchmarking (using EPA Portfolio Manager) for commercial buildings smaller than 10,000 sq. ft.
Recommend all commercial buildings greater than 10,000 sq. ft. to conduct ASHRAE Level 1 energy audits once every 10 years. Year based on appropriate Section Block Lot number.
Promote all commercial buildings smaller than 10,000 sq. ft. to conduct ASHRAE Level 1 energy audits once every 10 years. Year based on appropriate Section Block Lot number.
Require all commercial building projects to meet the latest ratified ASHRAE 90.1 building energy code.
Partner with local utilities to review, revise and promote energy‐efficiency incentives for large
commercial properties
Require new commercial buildings to be designed to be 20 percent more energy efficient than if
built to New York State Code requirements, as shown by COMcheck. (Town of Islip)
Offer refunds of LEED certification fees for eligible projects (Town of Babylon, 2006)
Offer property tax abatements for new or renovated commercial buildings that meet LEED or
similar standards. (Town of Brookhaven, 2013)
Set up a policy to encourage composting at restaurants, schools and other facilities.
Consider promoting the purchase of local products and the use of simple recycled packaging to
reduce waste and support local economy throughout the Town.
Consider the re‐purposing of products traditionally reserved for trash throughout the Town.
Consider partnering with local businesses to reuse packaging before recycling (e.g. palettes for
stone or building materials, reusable packing peanuts, etc.)
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3.3 Community‐Wide Policies and Initiatives to Promote RenewableEnergy
With direct control over local zoning and land use, the Town of Huntington can establish codes, policies,
and guidelines to encourage the installation and use of renewable sources of energy. Since 2013, there
has been a moratorium on installing wind turbines. ACEERS would like to suggest the Town consider
lifting this moratorium either during or after a discussion with regulatory agencies/departments to
consider creating clear user‐friendly requirements for wind turbines.
3.3.1 Laws,CodesandRegulationsinEffect
In 2010 the Town adopted a fast‐track system for the installation of solar PV and thermal
systems for residential properties. There is no permit fee for residential solar, although a
survey of the property is still required.
A Real Estate Tax tiered abatement for newly‐built LEED‐certified homes was passed by the
Town Board in 2013.
Participates in the NY Solar Smart Team Solarize program administered by Sustainable CUNY
to offer homeowners discounted rooftop solar PV installations based on group purchasing
power. The goal is a minimum of 150kW power generation in total. ACEERS members are
part of the team choosing the contractor and performing outreach to homeowners.
3.3.2 PotentialFutureActionsandInitiatives
Consider lifting the moratorium on installing wind turbines and explore the feasibility of
permitting wind turbines on residential properties (see Town of Islip wind ordinance)
Initiate a discussion with regulatory agencies/departments to create clear, user‐friendly
requirements for residential geothermal heat pumps and wind turbines.
Consider participating in inter‐municipal efforts to develop unified commercial solar,
geothermal and wind permitting, and adopt fast‐track permitting for commercial properties
once developed.
Consider code amendments to incentivize or require renewable energy sources on
commercial/industrial properties
Consider providing incentives, such as property tax abatements, for solar, geothermal pump
systems, wind turbines and other forms of renewable energy upgrades.
Consider adopting the Model Geothermal Permitting Code developed by the Suffolk County
Planning Commission and revised by ACEERS and the Chief Sustainability Officer in
cooperation with the Town departments of Engineering Services and Planning &
Environment10.
10 PSEG Long Island, Suffolk County, PSEG Long Island, LI‐GEO Unveil New Geothermal Energy Code to Assist Homeowners and Businesses, https://www.psegliny.com/page.cfm/AboutUs/PressReleases/111314‐geothermal.
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3.4 Transportation
Vehicles and transportation account for 42% of the CO2 emitted by fuel combustion in New York State in
201111. The Town can reduce its carbon footprint by establishing policies to encourage or incentivize
reductions in residential, commercial, and government vehicular use.
3.4.1 Laws,CodesandRegulationsinEffect
Installed a five electric vehicle solar PV charging station at the Huntington Train Station in
Huntington Station.
3.4.2 PotentialFutureActionsandInitiatives
The Plan made several recommendations to reduce single‐passenger vehicle use and miles travelled,
increase use of mass transit and alternative transportation, and increase the use of alternative fuels.
Mass Transit
The Plan suggested that the Town encourage greater ridership on the Long Island Railroad and
Huntington Area Rapid Transit (HART) buses through public education via its website, newsletters, and
special events. The Plan recommended that the Town also consider offering incentives to encourage
ridership.
Alternative Fuels
Huntington was the first town on Long Island to offer free parking at railroad stations, beaches and
metered parking spaces for residents who drive alternative fuel vehicles, although this program was
discontinued in 2014. Huntington also pioneered the first set of “Th!nk” electric vehicles, supplying plug‐
in stations at the Huntington train station. This initiative should be reinstituted for the new generation
of plug‐in vehicles. The Plan recommended that the Town encourage the use of electric vehicles through
the re‐establishment of plug in stations at the Huntington and Cold Spring Harbor train stations in
preferred spots.
It was recommended that the Town work with the villages, school districts, libraries, and fire districts
within the township to encourage the use of alternative fuels such as natural gas, bio‐diesel, hybrid
fuels, or use of filtration systems with ultra‐low sulfur diesel. The Plan suggested that the Town explore
cooperative bidding and other inter‐municipal agreements to accelerate investments in alternative
fuels.
Alternative Vehicles
Reductions in vehicle use might be achieved according to the Plan by encouraging the use of highly fuel
efficient vehicles with small motors such as scooters for commutes to the train station. The Town could
facilitate greater use by providing dry and secure daily storage for such vehicles at train stations. The
Town could also pursue educational efforts and traffic calming measures to encourage greater use of
11 NYSERDA, 2014 Draft New York State Energy Plan, Volume 2 Impacts and Considerations, Figure 1, p. 11, http://energyplan.ny.gov/Plans/2014.aspx.
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highly efficient transport designed for short trips and minimum space utilization. The Plan also
suggested that the Town require golf carts to be electric‐powered, with a photovoltaic charging system
sized to meet summer requirements and net metered to sell power back to the utility in the off‐season.
Bicycling
It was recommended that the Town encourage bicycle use for commuting and recreation for health
reasons, to increase appreciation of the Town’s scenic spaces, and to reduce greenhouses gases
associated with motor vehicle use. The following measures were recommended by the Plan.
• Establish industrial strength bike lockers at train stations and certain municipal buildings to
encourage the use of bicycles by providing safe storage options
• Identify roads that are suitable for bicycle lanes and plan to add 10 miles of bike paths/lanes
• Develop Town ordinance to require designation of space on existing roads with wide shoulders
or lanes for bike lanes
• Encourage bicycling by establishing a Bike Day with Bike shops exhibiting in Heckscher Park
• Increase bike ridership by establishing a “bike library” program similar to that run by Fort Collins,
Colorado. Establish locations for the public to borrow bicycles as well as a donation center
where bike mechanics restore old bikes. Work with the Town’s existing bicycle shops to develop
the program.
Anti‐Idling
Idling beyond three minutes by commercial vehicles and school buses is prohibited in the State of New
York. The Plan recommended that the Town impose a similar anti‐idling rule for its own vehicles).
School Bus Fleet
The Town of Huntington consists of eight school districts. Five of the eight (Cold Spring Harbor,
Huntington, South Huntington, Harborfields and Elwood) have school bus transportation provided by a
school bus fleet operator, Huntington Coach Corporation. The other three (Commack, Half Hollow Hills
and Northport‐East Northport) each provide their own transportation. Most, if not all, of these buses
operate utilizing diesel fuel.
Diesel exhaust has been a known carcinogen since 1990. According to California studies, approximately
70 percent of the cancer risk from air pollution in the state comes from diesel‐particle pollution. Such
exhaust from school buses not only pollutes the outdoor air, but exposes the children in the bus to as
much as 46 times the cancer risk considered “significant” by EPA and under federal law.12
Estimates from 2001 show new diesel school buses emit 51 times more air toxics than a new natural gas
school bus. A study of commercial buses in Boulder, Colorado demonstrated a 97 percent reduction in
12 Solomon, Gina M., Campbell Todd R., Ruderman Feuer, Gail, Masters, Julie, Samkian, Artineh, Paul, Kavita Ann and Santos Guzman, Jesus, “No Breathing in the Aisles: Diesel Exhaust Inside School Buses,” Natural Resources Defense Council and the Coalition for Clean Air, January 2001, http://www.nrdc.org/air/transportation/schoolbus/schoolbus.pdf.
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particulate matter and a 58 percent reduction in nitrogen oxides when the same buses were run using
compressed natural gas (CNG) instead of diesel.13
Cleaner alternatives to diesel, such as natural gas and propane, are already widely available for school
bus applications. Although a CNG school bus costs more than a diesel school bus, the operational and
maintenance costs tend to be lower so that the initial investment is recouped. Many school bus fleets
throughout the country operate natural gas and propane school buses, which have resulted in lower
emissions and noise. In addition, more advanced technologies, including hybrid‐electric buses that run
on natural gas instead of diesel, battery‐electric buses, and fuel cells, will be available in the future.14
In 2010 and 2011 Huntington Coach Corporation was recognized for its commitment to using cleaner
school bus fleets and practices to reduce engine exhaust emissions and conserve fuel by the National
School Transportation Association's (NSTA), which has been reviewed and endorsed by the U.S. EPA's
Clean School Bus USA Program. It is also working toward a cleaner environment through the use of
available EPA/CARB verified technologies as well as new bus technology.
Outreach
The Plan recommended that the Town conduct an outreach campaign via its website, printed materials,
newsletter, and special events to encourage residents to consider driving choices that could reduce the
environmental impacts of vehicle travel. Suggestions could include use of an efficient vehicle,
maintenance of proper tire pressure, driving the speed limit, and combining trips to avoid unnecessary
vehicle miles traveled.
Other actions under consideration by the Town include the following:
Consider, complete, adopt and implement Complete Streets policy
Continue work to develop Town‐wide bicycle network, including a bike rental network, the
provision of public parking (racks, lockers) and site plan requirements for bicycle racks/access
Consider providing incentives for carpooling/vanpooling: free park & ride lots, preferred parking
at transit hubs etc.
Consider developing a car‐sharing network: promotes use of public/more efficient forms of transportation, such as local shuttles, trains and buses
Consider instituting synchronized traffic lights on major roadways, such as Route 110, Route 25A
and 25, can both control speed and reduce idling pollution.
Consider siting and constructing an intermodal transit hub, attempt to coordinate schedules
across modes
Consider expanding the network of sidewalks to encourage pedestrian activity throughout the
Town
Consider utilizing transportation assets for multiple functions such as road energy systems that
use heat captured by asphalt to store and pipe heated water to nearby buildings
13 Op. Cit. 14 Ibid.
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Consider developing expedited permitting processes for private installation of alternative fuel
and electric vehicle charging infrastructure
Recommend school bus fleet operators and school districts that provide their own
transportation to purchase low‐sulfur diesel fuel and retrofit their existing diesel school buses
with particulate traps, if they are unable to purchase alternative fuel school buses.
Recommend school bus fleet operators and school districts that provide their own
transportation to immediately modify their purchasing practices to replace aging diesel school
buses with cleaner alternative fuel school buses such as natural gas.
Recommend school bus fleet operators and school districts that provide their own
transportation to purchase only alternative fuel school buses.
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3.5 EducationalInitiatives
It is important for the Town to develop educational initiatives to disseminate factual information to its
employees and the general public about renewable energy policy and the numerous benefits of
renewable energy and energy efficiency. This leads to a better understanding and a greater likelihood
that effective Town policies will be established and adhered to.
The Town and its residents are and will be making important decisions regarding energy usage and
supply, as well as ways to preserve and adapt to the altering environment. It is important that our
Town’s residents are well informed so that they can make sound, educated decisions.
The most efficient way to implement educational initiatives is through the school system. Younger
minds are more open to new ideas since attitudes and opinions are still in the formative stage. For this
reason, most educational programs in energy efficiency and renewable energy are geared for children of
various ages. Teaching children may be the best way to involve their parents, who are more likely to be
interested in projects their children are studying or researching for school. In addition, children are the
future members of the Town.
3.5.1 CurrentProgramsandPolicies
The Town of Huntington has an active community outreach effort related to environmental issues,
producing educational materials on solid waste, recycling, and reference guides on energy efficiency,
residential retrofits, and green living.
3.5.2 PotentialFutureActionsandInitiatives
The Plan suggested that the Town educate and engage the community in an effort to reduce town‐wide
GHG emissions with information on GHG emission reduction measures for their homes, schools, and
businesses.
The Plan also stressed the role that the Town could play in leading by example. Strong community
support is required as major reductions in greenhouse gases (GHGs) cannot be achieved through Town
actions alone. It also recommended that a team of renewable energy professionals be assembled to
assist with an educational campaign on energy efficiency and sustainability for the community. The Plan
recommended the following measures.
Public Buildings
It was recommended that the Town work cooperatively with the USGBC and other governmental
jurisdictions within Huntington to promote the benefits of greener public buildings to stress the role of
community members in finding solutions to our energy problems. The Plan suggested that the Town
encourage, educate, and assist governmental jurisdictions to become more energy efficient by utilizing
Huntington’s team of renewable energy experts and educators to develop the following programs.
School Programs
Assembly Program – Develop an assembly program similar to or in cooperation with USGBC available to
schools, libraries and other public forums in Huntington. The typical program would run under an hour,
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featuring two or three guest speakers who are experts in renewable energy. Huntington’s solar,
geothermal heat pumps, wind, bio‐fuel, etc. companies would be invited to participate and lend their
expertise free of charge. Guidelines for participation would be established and assemblies tailored to
different age and interest groups. Assemblies would be scheduled on a rotating basis to cover all age
groups and geographic areas of the Town.
School/Youth Clubs ‐ Young people are the key to long‐term energy sustainability efforts. Develop clubs
or societies, like National Honor Society, in cooperation with schools and other youth agencies so that
youthful participants can get community service credit for college and participate in education on
energy efficiency on a continuing basis. Clubs would be self‐perpetuating as students can pass on
knowledge to new members without outside intervention. Clubs can help set renewable energy goals
for their schools and agencies. Educate teachers and youth workers on the benefits of energy audits and
develop High School level science curricula where students learn to conduct energy audits.
Green Advisor ‐ Offer a free “Green Advisor” to donate services to schools and local youth agencies in
cooperation with planned annual events (i.e., school dance, holiday event). The Green Advisor would be
available to meet with the event committee to help green the event and make it energy wise.
Inter‐School Competition – The school with the most students whose parents assess their Home Energy
Yardstick Scores will win special recognition (to be determined). All the parent has to do is follow the
step‐by‐step instructions on the U.S. Environmental Protection Agency’s (EPA) website, print out the
results and submit them to the Town of Huntington ACEERS.
Renewable Energy Science Fair ‐ Promote the first Renewable Energy Science Fair and seek participation
of school age children in the Town of Huntington. . Attract corporate sponsors, a donated site and ask
for a limited number of entries from each school. Develop categories for judging and open for public
viewing at certain hours. Contact press for coverage. This Fair could involve a scholarship incentive or
prize and have teams focus and enact their projects. It will expand experiential and technical knowledge
about renewable energy for teachers and students and is likely to introduce new efficiencies into
schools and other buildings where projects are conducted. Encourage team projects with sponsorship.
Residential Programs
Professional Energy Audits – Mail postcards to homeowners in the Town to remind them of the free or
reduced rate for professional energy audits available through NYSERDA and PSEG‐Long Island programs
and describe the financial and environmental benefits of following the energy audit and its voluntary
action plan.
Solarize Huntington Program – Perform outreach events to inform public of this limited‐time offer for
discounted solar PV installations for homeowners (one to four family dwellings) in the Town.
Community Input
The Plan suggested that the Town solicit input from the community on energy efficiency. It suggested
the Town develop different avenues for community input including at its own “Green” events (e.g.,
Earth Day) and at events by others. Community input could be solicited via a feedback section on the
Town’s website. A mail or web‐based questionnaire could be developed soliciting community views on
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how the Town or other public resources could help residents and businesses shift to a renewable energy
and energy efficiency economy. Chambers of Commerce could solicit views from their member
businesses on these issues. The Plan also suggested that the ACEERS invite residents to its meetings one
or two times a year. Workshops were also recommended with energy efficiency experts to help coach
business owners and homeowners on they might save money by making their businesses and homes
more sustainable.
Information Dissemination
The Plan suggested that the Town provide information on its website and in print about home energy
audits and improvements that homeowners could make (e.g. caulking and weather‐stripping, efficient
appliances, etc.). The Plan encouraged the Town to continue its environment educational events on
Earth Day and throughout the year and to seek opportunities to do programs at local schools.
In addition to establishing its own greenhouse gas (GHG) emission reduction goals, the Town could
encourage emissions reduction targets by residents by placing a carbon calculator on its website with
action examples. For example, 84 pounds of carbon can be saved for each incandescent bulb replaced
by a compact fluorescent.15 Or how if every American ate a plant‐based diet one day a week we could
save 1.2 million tons of CO2 over the course of a year. 16 The Town should encourage each home to lower
its GHG emissions by at least 1,000 pounds per year and graphically demonstrate its effect if achieved by
all of Huntington’s 200,000 residents.
The Town should continue to reach out to businesses with information about energy efficiency and
alternatives and work closely with the Huntington Chamber of Commerce and similar business
organizations to keep Huntington businesses abreast of energy efficiency educational opportunities and
incentives via e‐mail and print. The Plan recommended events such as a solar photovoltaic (PV) and
solar thermal (hot water) showcase, a kiosk for public information, weatherization seminars. The Town
should also work with the local REALTORS® to disseminate energy efficiency information and services
available to all new residents when they purchase homes in the Town.
The Plan stressed the importance of communicating successes. It suggested that the Town send regular
press releases to all media contacts, chambers, and business organizations with updates on the Town’s
energy efficiency and renewable energy initiatives including advisories from ACEERS. A renewable
energy scorecard was also recommended for the front lawn of Town Hall powered by solar PV.
15 Gershon, David. Low Carbon Diet: A 30 Day Program to Lose 5000 Pounds‐‐Be Part of the Global Warming Solution!, Empowerment Institute; 3rd,Revised edition (January 15, 2007) and US Environmental Protection Agency, Calculations and References: Number of incandescent bulbs switched to compact fluorescent bulbs, http://www.epa.gov/cleanenergy/energy‐resources/refs.html 16 Stone, Gene, ed., Forks Over Knives: The Plant‐based Way to Health, The Experiment, 1 edition (June 28, 2011)
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3.6 LandManagement
Land management by the Town is important and necessary to ensure access to land and housing for
both residents and businesses. How the Town uses its land to meet the needs of a healthy, growing,
thriving community defines it. Access to and use of land is important for economic growth, poverty
reduction and the promotion of both private investment and transparent, accountable government. This
requires planning for the efficient placement of infrastructure, settlement expansion and other land‐use
activities for the good of the entire community.
The land management of the Town should implement a zoning that promotes the efforts to reduce
environmental impacts and to live more lightly on the land. Efforts to reduce sprawl by the introduction
of compatible mixed use of existing developed areas and new developments.
Sustainable land management is a knowledge‐based procedure that aims to integrate the management
of land, water, biodiversity, and other environmental resources to meet human needs while sustaining
ecosystem services and livelihoods. This term refers to community planning and environmental
protection, as well as to commercial, property and estate management.
Sustainable land management is the wave of the future. From the Smart Growth America Coalition
Member Application:
We believe that the American people deserve healthy cities, towns and suburbs; homes that are
both affordable and close to jobs and activities; fewer hours in traffic and more opportunities to
enjoy recreation ad natural areas; air and water of the highest quality; and landscape our
children can be proud to inherit. We believe that ordinary citizens deserve a much greater say,
and better options, in choosing their communities’ future.
3.6.1 Laws,CodesandRegulationsinEffect
Mixed use zoning is in place in C‐1, C‐3, C‐4, C‐5, C‐6, C‐6 overlay, C‐7, C‐8 and C‐9.
3.6.2 PotentialFutureActionsandInitiatives
The Plan recommended that the Town continue its efforts to implement Smart Growth, which minimizes
driving by encouraging mixed‐use development, the reduction of sprawl, and introduction of traffic
calming measures, bike and pedestrian paths.
Suggested actions to:
Continue to utilize form‐based code zoning through the application of the C‐6 district in
conjunction with the newly adopted Design Guidelines incorporated into the Site Plan and
Subdivision Regulations. This approach should be considered for the following areas:
o New York Ave north of Main St.
o Main St east of Park Ave.
o New York Ave south of Fairview St.
Investigate mixed‐use parking structures.
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Consider creative parking solutions. The 2014 Long Island Index launched the ParkingPLUS
Design Challenge to devise new concepts of parking design to both rethink and enliven our
downtowns.
Prepare an overlay map showing the existing single use sites with the overlay showing the
potential of mixed‐use.
Expand and revise current code to allow mixed‐use for office and industrial spaces. (Tyson, VA,
suburban office mixed use)
Create Green Business District and Incubator
The Plan recommended that the Town attract green business to locate or expand in the Town. A
business could qualify as green in a number of ways. Providers of green products would qualify such as a
renewable energy company that offered solar, wind or geo‐thermal products or services. It was
recommended that the Town develop policies to encourage these and existing green businesses to
locate in Huntington by establishing a “Green Business District.”
Establishing such a zone would require input from Town departments and members of business groups
like the chambers of commerce and business improvement districts. Qualifying green businesses would
become a self‐reinforcing group, and as a group advocate for advances in energy efficiency and
renewables, thereby attracting even more associated businesses.
Certain areas may be best for a Green Business District (GBD). Zoning overlay districts have been used to
form enterprise zones in certain areas. Huntington could use this concept to define or transform an area
by making it a GBD. This may be suitable in an area that needs some incentive to redevelop such as a
“Brownfield” or as a means to accelerate an existing project like Huntington Station Revitalization.
A “Green Business Incubator” could be located inside the GBD to help establish new Green companies
and to assist existing companies “go green” by adding new Green products and services. Based on
statistics from the National Business Incubator Association, business “graduates” from a well‐run small
business incubator have an 87% “success” rate (survival rate after they leave the incubator). Entry into
the Green Business Incubator could be incentivized with low‐interest loans or rent subsidies for
commercial space.
Create Clean Energy Initiative Fund to Encourage New Technology Development
The Plan suggested that the Town explore the creation of a Clean Energy Initiative Fund. Growth of new
industries starts with the development of new technologies. One technique is to collaborate with
universities to incubate these technologies. These initiatives require a funding source that could be a
combination of public and private funds including local lenders.
Other actions under consideration by the Town include the following:
Town drafted prescriptive energy efficiency code – currently under review.
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4 CLIMATECHANGE,PLANNINGANDADAPTATION
4.1 ClimateChangeinNewYork
The following summary of climate change effects is taken from the Climate Smart Resiliency Planning
Evaluation Tool for New York State Communities, developed by the New York State Climate Smart
Communities program.
4.1.1 ObservedEffectsofClimateChange
The New York State Energy Research and Development Authority (NYSERDA) released a report in 2011
that evaluated scientific work to date and discussed the projected effects of climate change in New York
over the next 100 years. The report, ClimAID: the Integrated Assessment for Effective Climate Change
Adaptation Strategies in New York State was the work of more than 50 scientists. The report examines
the effect of climate change on a number of sectors in seven geographic areas of the State. Those
sectors include water resources, coastal zone, ecosystems, agriculture, energy, transportation,
telecommunications, and public health. ClimAID noted the following critically important observations:
Annual average temperatures have risen about 2.4 °F since 1970, with winter warming
exceeding 4.4 °F.
Sea level along New York's coastline has risen about a foot since 1900.
Intense precipitation and heavy downpours have increased in recent decades.
4.1.2 ProjectedClimateChanges
The ClimAID report made the following predictions for the next 100 years in New York State:
Annual average temperatures in New York State will rise by 4 to 9 °F by about 2080.
Average precipitation will increase five to 15 percent by about 2080, with most of the increase in
winter.
Intense downpours will become more frequent.
Short‐term droughts will become more frequent.
The number and duration of extreme heat events will increase.
Along the seacoast and tidal portion of the Hudson River (to the Federal Dam at Troy), sea level
could rise more than four feet by 2090.
4.1.3 ProjectedEffectsofClimateChange
The report utilized the predicted climate changes to describe the potential effects on the State’s natural
resources, built environment, and public health. The following potential effects of climate change from
the ClimAID report will affect the residents of the Town of Huntington:
• Infrastructure (energy, transportation, telecommunications)
o Disruption of water, transportation, communication, and energy systems due to extreme
weather.
o More frequent and more intense rainstorms increase localized flash floods.
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o Power outages affect apartment dwellers and vulnerable populations in particular.
• Public health
o Expansion of vector‐borne diseases.
o Heat waves leading to increased illness and deaths from heat stress.
o Increased levels of air pollution, causing asthma and other respiratory illness.
4.1.4 HazardMitigationGrantProgram
The Hazard Mitigation Grant Program (HMGP) provides grants to states and local governments to
implement long‐term hazard mitigation measures after a major disaster declaration. The purpose of the
HMGP is to reduce the loss of life and property due to natural disasters and to enable mitigation
measures to be implemented during the immediate recovery from a disaster. The HMGP is authorized
under Section 404 of the Robert T. Stafford Disaster Relief and Emergency Assistance Act.17
As disasters occur, the Federal Emergency Management Agency (FEMA) also makes an additional
percentage of the total damage amounts incurred available to local governments having an approved
Hazard Mitigation Plan (HMP) for implementing rebuilding projects.
The Suffolk County Office of Emergency Management is finalizing the 2014 County Hazard Mitigation
Plan Update as required by FEMA in collaboration with the stakeholder community. The County is
incorporating data updates from all participants to be included in the Suffolk County Hazard Mitigation
Plan Update. The County indicated that its priority and mandate is to ensure that the plan includes all
municipalities that are willing to participate. They emphasize that the consequence of non‐participation
is the potential loss of federal funding for future hazard mitigation projects.
4.1.5 NewYorkRisingCommunityReconstructionProgram
Through the New York Rising Community Reconstruction Program (NYRCR), New York State is assisting
communities to rebuild better and safer through community‐driven plans that consider current damage,
future threats to community assets, and the community’s economic future. In keeping with the National
Disaster Recovery Framework, NYRCR Plans consider the needs, risks, and opportunities related to
assets in the following recovery support functions: Community Planning and Capacity Building, Economic
Development, Health and Social Services, Housing, Infrastructure, and Natural and Cultural Resources.
To better align the Town’s climate strategies with future funding opportunities, the Town of
Huntington’s Climate Action Plan addresses adaptation and mitigation within a similar structure and
framework, although it was not specifically part of the NY Rising process.18 The final plans for the NYRCR
communities are available on the Office of Storm Recovery’s website: http://stormrecovery.ny.gov .
Implementation of those plans will begin in the later part of 2014.
17 http://www.fema.gov/hazard‐mitigation‐grant‐program 18 http://stormrecovery.ny.gov/community‐reconstruction‐program
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4.2 CommunitySelf‐AssessmentandPlanning
Performing a risk and vulnerability assessment is a critical first step in developing comprehensive
adaptation and mitigation strategies for addressing climate change impacts. In general, a comprehensive
assessment for non‐coastal municipalities would likely focus more on the effects of high summer
temperatures, severe rain and wind storms, and the associated power outages. Power outages can be
dangerous to certain vulnerable populations as they result in indoor temperature extremes, and non‐
functioning elevators and medical equipment.
Assets are places or things where economic, environmental, and social functions of the Town take place,
or are the critical infrastructure required to support those functions. The Climate Smart Resiliency
Planning Evaluation Tool for New York State Communities recommends a number of measures to
increase the resiliency of New York State communities. Most measures begin with an identification of
vulnerable assets and populations. A vulnerability assessment is then performed of Town‐owned or
controlled sites and facilities, infrastructure, contaminated sites, utilities, transportation systems,
building stock (commercial and residential), emergency facilities, parks/recreation/public access areas,
vulnerable populations (should be updated on a regular schedule and/or as new data becomes
available). Finally, an implementation plan is developed and responsibilities assigned for specific actions
to individuals or organizations, and timelines are established for each action.
4.2.1 TownInitiatives
The Town is conducting a vulnerability assessment to assess its susceptibility to sea level rise, damaging
storm surges, and severe weather events. The assessment will include infrastructure, the general
population, health and social service facilities, private properties, and septic systems. The USGS is
conducting a post‐Sandy mapping effort.
4.2.2 CurrentProgramsandPolicies
Huntington’s most important technological resource for assisting with multi‐hazard mitigation
operations is its use of the Town of Huntington Geographic Information System (GIS), for Mapping and
Modeling. GIS mapping and modeling is used to estimate flood hazards, debris volumes and
distributions, hazard prone residences and businesses, and identify mitigation opportunities.
The Town of Huntington Geographic Information Systems Section maintains data on Huntington town
and its villages, which can be used for a variety of analysis. The Town GIS is also integrated with the
Federal Emergency Management Agency (FEMA) HAZUS‐Multi Hazard (HAZUS‐MH) software program.
The HAZUS‐MH program uses historical disaster data coupled with building permit information and GIS
to produce estimates of disaster debris.
The Town GIS Manager is part of the Incident Command Staff, and can be reached at the Town EOC,
during an emergency.
2011 – 2012, The Town initiated a facility inspection program, using GIS. The first phase of this project
involved the inventory of town structures for annual insurance underwriting requirements. Under the
original insurance program, the town had recorded 143 structures. In the Spring of 2012, the
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Department of Finance worked with the GIS Staff to refine the insurance inventory, which had not been
updated since 1996.
As a result of this 2012 analysis, the town added an additional 40 structures to the inventory. Each
structure was assessed for its individual hazard vulnerabilities from storms. During the Summer of 2012,
this inventory was submitted to the town’s insurance underwriter for acceptance. Using this inventory,
the town insurance underwriter worked with the Department of Finance to increase town coverages,
and provided additional flood insurance for properties identified as having potential flood hazards.
Super‐storm Sandy in October, 2012, caused significant damages to town structures. The town was able
to offset these liabilities through its revised insurance strategy; aggressive hazard mitigation and
assessment. This information was used to establish flood policies on town properties.
2013 – The town prepared an after action assessment of the impacts of Hurricane Sandy. As part of that
assessment, the town considered the effects of sea level rise, and climate change. Using highly accurate
topographic data, obtained through light detection and ranging (LiDAR), the town was able to assess all
properties within each flood zone, for hazard rating.
2014 – The town migrated to GIS Advanced Enterprise Servers. Huntington’s GIS provides staff with a
variety of resources for assessing impacts to the community. In addition, the GIS Staff has been trained
to conduct assessments, and to perform a variety of analysis.
2014 – The town deployed mobile GIS for asset inspection and inventory as part of the Municipal
Separate Storm Sewer (MS4) program. As part of this effort, 198 flood zones have been mapped within
the town.
4.2.3 PotentialFutureActionsandInitiatives
The Town of Huntington has applied to NYSERDA’s RFP 3044 to conduct a NY Prize Stage 1
Feasibility Assessment for the Town of Huntington Community Microgrid located in Huntington,
NY. The proposed microgrid will provide energy service to several critical facilities in the
immediate area which serve a critical community need and have suffered from historic reliability
issues in the past during Hurricane Sandy and Irene. The proposed Town of Huntington
Community Microgrid fits all the goals and objectives of NY Prize, has the potential to be a true
community microgrid, and increase distributed energy generation resources with an estimated
capacity of six to ten megawatts.
o The sites included in the proposed community microgrid include Huntington Town Hall,
Huntington Hospital, Huntington Waste Water Treatment Plant, Huntington YMCA, and
the Flanagan Senior Center. These sites are considered critical and would benefit from
increased energy reliability. All sites are located within a diameter of 0.7 miles, in an
area known as Huntington Village. This area is a busy downtown district and common
community gathering place which has suffered from energy reliability issues in the past.
Following Hurricane Sandy, this area was without power for ten days. Additionally, the
lack of redundancy for Huntington Hospital when running on emergency back‐up
generation means their ability to perform critical medical procedures is severely limited
when the electric grid is down.
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o Successful microgrids provide continuous access to power. However microgrids must
leverage existing assets and be designed to utilize cost‐effective technologies and
energy sources to be financially viable. The proposed community microgrid combines
the installation of new natural gas combined heat and power (CHP) plants, with flexible
electrical distribution system, energy storage components and renewable energy
resources. The CHP will be the primary energy source of the community microgrid and
will be supplemented by solar photovoltaic arrays and captured methane from a waste
water treatment plant. Demand response, energy efficiency, and energy storage
benefits will all be assessed to determine the optimal microgrid configuration.
o Electricity will be transmitted using existing power lines, which means ancillary
commercial businesses and residences will benefit from the power provided through the
community microgrid. However, using existing power lines may make the microgrid
susceptible to downed power lines, therefore to provide additional resiliency the
assessment will include evaluating looping, sectionalizing, and constructing
underground utility lines. Further, the microgrid will need to isolate itself when the
greater electric grid is experiencing problems. This will be achieved through remotely
operated reclosers which will be located appropriately to isolate the microgrid as
needed.
Floodplain Inquiry Tool (2014, Planned for Public release in 2015) ‐ The Floodplain Inquiry
application is a configuration of the Town GIS FIRM Lookup application, which can be used by
citizens, land development companies, and real estate professionals to locate parcels impacted
by FEMA floodplain boundaries. This application provides access to authoritative floodplain
boundary information (DFIRM panels) provided by the Federal Emergency Management Agency
(FEMA) so informed decisions can be made during land development and home buying
processes.
Flood Planning (2011) ‐ Flood Planning is used by the Town Staff for public safety, emergency
management, public works, or planning to analyze the impact of seasonal flooding scenarios and
develop flood response plans. Flood Planning allows you to analyze the impact of flooding for
multiple flood levels and create a flood impact plan for each flood level. It also allows you to
develop preliminary levee plans and budget estimates for each levee. The flood impact analysis
identifies public infrastructure, critical facilities, and vulnerable citizens that may be impacted.
This information will help you develop a plan to mitigate the impact on the community, and
budget for the cost of proposed levees that may be necessary.
Community Water Quality Status Tool (2015) ‐ The Water Quality Status application is a
configuration of an ArcGIS Online configurable application template. The configurable
application template enables the town to utilize GIS data to provide residents with current
water quality monitoring status of each waterway. Citizens can quickly determine if waterways
or beaches are fishable and swimmable.
Capital Improvement Planning Module (2015) ‐ The Capital Improvement Planning map is
currently being developed to assist town managers with water, sewer, and stormwater
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infrastructure planning. This application is designed to rate the condition of infrastructure
networks and estimate the cost of capital improvement projects. The tool is also being
considered for incorporating sustainability metrics, and performance thresholds, which can be
automated. To accomplish these tasks, the map includes flexible geo‐processing models to rate
condition and an interactive toolset to estimate project costs, and planning requirements.
Huntington is the only local municipality on Long island with this capability. It is estimated that
this tool will provide the town with approximately $100,000 in avoided costs each year.
MS4 Inventory Application (2014) ‐ This GIS based application was developed to enable town‐
wide compliance with the EPA's stormwater discharge regulations and to assist staff in
developing a stormwater management program. This solution allows field crews to collect
stormwater asset locations and attach a photo of the completed inspection form. The
information collected can then be used by the utility office staff for MS4 annual reports. MS4
Inventory Recorder is a configuration of ArcGIS Online and the Collector for ArcGIS application.
The application was first deployed in the Fall of 2014, in anticipation of the EPA / DEC audit.
During the EPA audit, this application was cited as part of the top 1% of compliance practices in
the nation.
Construction Site Violations Tool (2015) ‐ The Construction Site Violations solution was
developed to compliment the MS4 Inventory Application. This solution allows town field staff to
record water/wastewater construction site violations using a mobile device. Construction Site
Violations is a configuration of ArcGIS Online and the Collector for ArcGIS application. This
allows field staff to input a type and subtype of violation and attach photos as needed
regardless of connectivity to the office network. This map can be used in the field assuming
cellular coverage is available or offline editing is enabled. This application will be deployed in the
Summer of 2015.
Illicit Discharge Trace Tool (2016) ‐ The Illicit Discharge Trace app allows the user to specify a
location, such as the site of stormwater pollution, and trace the network upstream to find
potential polluters. This JavaScript based app allows for the input of one or more trace points to
begin the upstream trace from. This information is passed to a back end processing model to
run the analysis. The results are returned to the app, where connected mains and business
within a proximity to stormwater inlets are returned. These resulting business locations can be
saved to a feature service or CSV file. This application is currently under review by the GIS Staff.
Night‐Time Flow Analysis (2015) ‐ In 2015, the GIS staff acquired a The Nighttime Flow Analysis
solution, which provides a water utility toolset to create, monitor, update and retire a Sub‐DMA
for the purpose of identifying areas of potential high water loss. For additional details, please
read Detecting Water Loss Early With ArcGIS – Using Nighttime Flow Analysis. This solution
includes a series of services, maps, and apps for use throughout the Dix Hills Water District.
Public Parking (2015) ‐ Public Parking is a configuration that can be used by parking staff to
inventory parking assets and promote public parking alternatives in a community. The provision
of clean, safe, and affordable public parking (lots, garages, on‐street spaces, and pay stations) is
critical to vibrant downtowns and neighborhoods. The Parking Inventory map and Collector for
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ArcGIS application can be used by parking staff to inventory available parking assets in the field.
Once parking assets have been inventoried, the Public Parking map and a configuration of the
ArcGIS Online Finder configurable application templates can be used by citizens and visitors to
locate public parking options in a community.
Impact Summary Map (2014) ‐ The Impact Summary Map application enables town emergency
staff to quickly configure, deploy and communicate impacts from a disaster. The Impact
Summary Map can be used by emergency management organizations to quickly communicate
impact of an event to interested parties. It utilizes enriched content to facilitate quick summary
information for the affected population. Huntington is the only municipality with this capability
on Long Island.
Huntington Walkable Community Map (2015) ‐ The concept of a ‘walkable community’ serves as
a measurable indicator of quality of life at the neighborhood level. Walkable communities
reduce auto dependency, provide access to amenities, and encourage the development of a
vibrant neighborhood. The Department of planning and Environment is currently using GIS to
create a walkable index map to aid future land use planning. In the future, the town may use
such an index to evaluate existing community needs and to guide future development.
GIS Based Facility Planner (2016) ‐ In 2016, the town will have the ability to use the GIS for
managing its facility technology systems. The ability of GIS to do analysis and apply models
based on different scenarios allows facility managers to create an efficient building from the
start that provides the best space usage and energy efficiency possible. As the building matures,
staff can model asset usage and depreciation over time and manage security and environmental
costs. Most importantly, GIS opens up facilities‐specific software and data for use across the
enterprise. The town can deploy GIS to assemble and manage the enormous quantities of
information provided by building automation and energy management systems and visualize
that information in real‐time.
Solar Radiation Map (2015) ‐ Analysis incoming solar radiation (insolation) received from the sun
is the primary energy source that drives many of the earth's physical and biological processes.
Understanding its importance to landscape scales is key to understanding a broad range of
natural processes and human activities.
o With landscape scales, topography is a major factor that determines the spatial
variability of insolation. Variation in elevation, orientation (slope and aspect), and
shadows cast by topographic features all affect the amount of insolation received at
different locations. This variability also changes with time of day and time of year and in
turn contributes to variability of microclimate including factors such as air and soil
temperature regimes, evapotranspiration, snow melt patterns, soil moisture, and light
available for photosynthesis.
o The solar radiation analysis tools in the ArcGIS Spatial Analyst extension enable you to
map and analyze the effects of the sun over a geographic area for specific time periods.
It accounts for atmospheric effects, site latitude and elevation, steepness (slope) and
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compass direction (aspect), daily and seasonal shifts of the sun angle, and effects of
shadows cast by surrounding topography. The resultant outputs can be easily integrated
with other GIS data and can help model physical and biological processes as they are
affected by the sun.
Consider establishing town‐wide cooling (and warming) centers. A cooling center is a temporary
air‐conditioned public space set up by local authorities to deal with the health effects of a heat
wave. Usually sited at several locations throughout a city, cooling centers are meant to prevent
hyperthermia, especially among the elderly without air conditioning at home. At this time this is
done only at the county level.
Consider retrofitting air conditioning, air source heat pumps or geothermal heat pumps in
schools to increase student comfort and learning and to use as cooling centers in the summer.
• Consider increasing and promoting the use of natural mosquito controls to reduce vector‐based
illness:
o Keep properties free of stagnant water to reduce mosquitoes breeding grounds
o Introduce and expand the use of plants and natural mosquito predators to keep
mosquitoes away from inhabited areas and reduce their numbers.
o Pesticides should be discouraged as marginally effective and a major source of water
pollution.
• Consider increasing and promoting the use of planting of “line‐friendly” trees (lists available
from PSEG) along power line right of ways, especially when larger trees are removed. These
“line‐friendly” trees grow beneath power lines, eliminating power outages due to falling trees,
while still providing shade and carbon fixing (absorption of CO2 from the air). They should be of
diverse species so they are more resistant to disease. Many of the trees listed are LI natives and
available free of charge as nursery seedlings from the National Arbor Day Foundation.
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4.3 ResilienceStrategies
The terms “adaptation” and “resilience” are related but often used interchangeably. A recent article
defines ‘resilience’ this way: Community resilience is the capability to anticipate risk, limit impact, and
bounce back rapidly through survival, adaptability, evolution, and growth in the face of turbulent
change19. Adaptation is the set of strategies that communities use to become more resilient. Adaptation
strategies to increase the resilience of housing, infrastructure, natural and cultural resources, and health
and social service facilities typically fall into the three categories ‐ protection, accommodation, and
retreat.
Protection strategies include natural (green or soft) solutions and constructed (gray or hard) solutions.
Generally, natural protection strategies, including maintenance of local and regional ecosystems, habitat
restoration, coastal buffers, wetland mitigation, urban reforestation, and expanded green infrastructure,
are preferred to ‘hard’ structures. These “green” solutions offer ecological benefits in addition to their
value for adaptation. Certain community assets are location‐dependent and therefore ’hard’ protection
systems may be the only feasible option.
Accommodation strategies do not prevent flooding or inundation, but allow structures to survive (i.e., it
makes them more resilient). Examples include elevation of structures and stormwater system
improvements.
Retreat strategies do not prevent flooding or inundation but offer options for the loss of use or property
value. Examples include buyouts, acquisitions, transfer of development rights, purchase of development
rights, rolling easements, and conservation easements.
Still other strategies involve new programs, policies, plans, actions, and data collection. These
adaptation strategies are categorized in the NYRCR program as Community Planning and Capacity
Building.
Following are the strategies included in Suffolk County’s Hazard Mitigation Plan as well as other
strategies under consideration. The strategies from the Mitigation Plan and the others are arranged into
the Recovery Support Function categories of the NYRCR program as follows.
4.3.1 CommunityPlanningandCapacityBuilding
• Integrate sea‐level rise planning into other plans and documents. To be effective, local
comprehensive plans, hazard mitigation plans, emergency management plans, and post‐disaster
recovery plans should all address the potential impacts of sea‐level rise.
• Expand emergency preparedness public awareness campaign, potentially partnering with the
Suffolk County Office of Emergency Management. Continue to distribute and post the Town's
"Be Prepared…" flyer.
• The Town of Huntington will investigate participation in the National Flood Insurance Program’s
Community Rating System
19 Definitions of Community Resilience: An Analysis, 2013. Community & Regionals Resilience Institute. 14pp.
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• Expand floodplain management activities to receive additional FEMA Community Rating System
points (residents receive larger discounts on NFIP premiums)
• Promote ‘No Adverse Impact’ concepts from the National Association of Floodplain Managers.
Track repetitive loss properties and develop potential strategies for transitioning properties to
non‐residential/public use.
4.3.2 HealthandSocialServices
• Consider partnerships with local hotels and other "safe" structures. Or consider storm‐proofing
Town facilities to increase shelter space
• Consider partnerships with local non‐profits and/or elderly care specialists to assist individuals
during emergency situations
• Promote Town’s Extreme Heat Response Plan, which provides for access to cooling centers
during dangerous heat waves
In preparing for a storm or emergency event, efforts should be made to restrict access to highly vulnerable and/or dangerous areas. This can help evacuation times and reduce unnecessary risks.
4.3.3 Housing
• Work with Suffolk County to expand the use transfer of development rights (TDRs) programs to
reduce risks to vulnerable properties, direct development away from undeveloped land, and
create compact, walkable communities
Investigate impact of building code revisions for properties in vulnerable areas. For example,
waiving height limits in flood hazard areas to accommodate elevated properties.
4.3.4 Infrastructure
• Reduce reliance on municipal stormwater system through smart landscaping, pervious surfaces,
open space protection, and on‐site retention
• Develop a wellhead protection program for primary and secondary recharge zones
• Upgrade Town‐wide emergency communication systems ‐ radio, mobile cell towers, satellite
phones
Wastewater treatment plant upgrade plans revised to include elevated structures
4.3.5 NaturalandCulturalResources
• Maintain and allow for the expansion of green/natural infrastructure. Set targets for forestry
coverage, wetlands, and pervious surfaces
• Evaluate various restoration techniques in marshes and wetlands. Healthy wetlands will adapt
and grow with sea level rise, providing a natural buffer for low‐lying coastal areas
• Preserve land for public uses for in high‐risk areas to reduce vulnerability of residents and
properties
• Restore USGS monitoring of ground and surface water
Develop policies and plans for periods of declared drought.
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APPENDICES
Appendix A: Possible and Anticipated CSC Certification Points
Appendix B: Pending Town of Huntington Projects
Appendix C: Town of Huntington Case Studies
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APPENDIX A
Possible and Anticipated CSC Certification Points
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APPENDIX B
Pending Town of Huntington Projects
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Pending Town of Huntington Projects
Projects and Policies Currently Under Consideration, Development or Implementation by the Town:
Pursuing lighting and HVAC upgrades in Town facilities
Pursuing LEED Certification for new business incubator
Pursuing online building portfolio management
Pursuing Huntington Armory renovation project
o Continue with budgeting for an energy efficient renovation including; a geothermal
HVAC system, Solar PV and a food green roof, to convert the former New York State
Armory into the James D. Conte Community Center located at 100 East 5th Street,
Huntington Station which is classified as a New York State Brownfields Opportunity
Study Area, Environmental Justice Area, and a Low moderate Income Census Tract area.
Continue Long Range Energy Efficiency Plan to audit all Town facilities and buildings
As part of the operations of the Town of Huntington’s Wastewater Treatment Plant, the
methane gas that is generated in the digesters is currently flared off. A new project would
capture that methane gas and supplement it with a new natural gas line to run a new 65kW
Micro Turbine for Combined Heat and Power (CHP). The electricity generated by the micro
turbine would reduce the electrical load of the sewage treatment plant by approximately
550,000 KWh per year, and ease the electrical demand on the grid. In addition, the waste heat
generated by the micro turbine would be used to heat the digesters which are currently heated
by a boiler operating on fuel oil. Therefore, converting the boiler to natural gas will eliminate the
annual fuel oil consumption of approximately 13,000 gallons per year. The boiler will only be
used to supplement the waste heat from the micro turbine. The elimination of the methane gas
emissions will eliminate average annual Greenhouse Gas emissions by approximately 5,000
Metric Tons of Carbon Dioxide Equivalent (MtCO2e).
Replace all lighting fixtures at LIRR Huntington Station North Parking Garage with induction
fixtures funded in part with EOSPA funds.
Ongoing conversion of the refuse hauling fleet to CNG.
Ongoing retrofitting and/or conversion of its HART bus fleet to Clean Diesel. Ongoing conversion
of vehicle fleet to more energy efficient and/or hybrid cars/trucks.
Collaborate with other Nassau and Suffolk towns to obtain operating experience and
cost/benefit information on the operation of fleet vehicles operating with alternate fuels.
Compare the results with the operating experience and cost data for the Huntington Town
owned vehicles.
The “Armory” project and its adaptive reuse is in the planning stage. If it can be used as a model
green renovation, its success will serve as a testament to comprehensive energy choices and
climate smart considerations. Recognition that grant monies may be available serves as an
example of all‐encompassing Operations planning.
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APPENDIX C
Town of Huntington Case Studies
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